************************************************************ CalculiX Version 2.16, Copyright(C) 1998-2019 Guido Dhondt CalculiX comes with ABSOLUTELY NO WARRANTY. This is free software, and you are welcome to redistribute it under certain conditions, see gpl.htm ************************************************************ You are using an executable made on Mo 25. Nov 18:56:47 CET 2019 Decascading the MPC's Determining the structure of the matrix: number of equations 5415 number of nonzero lower triangular matrix elements 174255 Starting FSI analysis via preCICE using the geometrically non-linear CalculiX solver... *ERROR in nonlingeo increment size smaller than one millionth of step size increase increment size Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Setting up preCICE participant Solid, using config file: config.yml [1626805443.608660] [rb-hpc-b36n13:8901 :0] mxm.c:196 MXM WARN The 'ulimit -s' on the system is set to 'unlimited'. This may have negative performance implications. Please set the stack size to the default value (10240) ---[precice]  This is preCICE version 2.2.1 ---[precice]  Revision info: no-info [Git failed/Not a repository] ---[precice]  Configuration: Release (Debug and Trace log unavailable) ---[precice]  Configuring preCICE with configuration "../precice-config.xml" ---[precice]  I am participant "Solid" Set ID Found Read data 'Force' found with ID # '3'. Write data 'Displacement' found with ID # '2'. ---[precice]  Setting up master communication to coupling partner/s ---[precice]  Masters are connected ---[precice]  Setting up preliminary slaves communication to coupling partner/s ---[precice]  Prepare partition for mesh Solid-Mesh ---[precice]  Gather mesh Solid-Mesh ---[precice]  Send global mesh Solid-Mesh ---[precice]  Setting up slaves communication to coupling partner/s ---[precice]  Slaves are connected ---[precice]  iteration: 1 of 100, time-window: 1, time: 0 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, write-iteration-checkpoint Initializing coupling data Adapter writing coupling data... ---[precice]  initializeData is skipped since no data has to be initialized. Adapter reading coupling data... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Adapter writing checkpoint... increment 1 attempt 1 increment size= 1.000000e-07 sum of previous increments=0.000000e+00 actual step time=1.000000e-07 actual total time=1.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 207 and dof 2 largest increment of disp= 2.743071e-13 largest correction to disp= 2.743071e-13 in node 2099 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1148 and dof 2 largest increment of disp= 2.743071e-13 largest correction to disp= 1.852589e-21 in node 1249 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1, limit = 0.001, normalization = 3.05148e-14, conv = false ---[precice]  relative convergence measure: relative two-norm diff = inf, limit = 0.001, normalization = 8.3347e-18, conv = false ---[precice]  iteration: 2 of 100, time-window: 1, time: 0 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 1 attempt 2 increment size= 1.000000e-07 sum of previous increments=0.000000e+00 actual step time=1.000000e-07 actual total time=1.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 2081 and dof 2 largest increment of disp= 2.743071e-13 largest correction to disp= 2.743071e-13 in node 2099 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1889 and dof 2 largest increment of disp= 2.743071e-13 largest correction to disp= 1.852593e-21 in node 1039 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.9, limit = 0.001, normalization = 3.05148e-14, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1, limit = 0.001, normalization = 2.48274e-08, conv = false ---[precice]  iteration: 3 of 100, time-window: 1, time: 0 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 1 attempt 2 increment size= 1.000000e-07 sum of previous increments=0.000000e+00 actual step time=1.000000e-07 actual total time=1.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 2081 and dof 2 largest increment of disp= 2.743071e-13 largest correction to disp= 2.743071e-13 in node 207 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 708 and dof 2 largest increment of disp= 2.743071e-13 largest correction to disp= 1.852591e-21 in node 1249 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.16828e-05, limit = 0.001, normalization = 3.05146e-14, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.987807, limit = 0.001, normalization = 2.48326e-07, conv = false ---[precice]  iteration: 4 of 100, time-window: 1, time: 0 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 1 attempt 2 increment size= 1.000000e-07 sum of previous increments=0.000000e+00 actual step time=1.000000e-07 actual total time=1.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 2081 and dof 2 largest increment of disp= 2.743071e-13 largest correction to disp= 2.743071e-13 in node 207 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1859 and dof 2 largest increment of disp= 2.743071e-13 largest correction to disp= 1.852591e-21 in node 1249 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 8.48025e-05, limit = 0.001, normalization = 3.0514e-14, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.953031, limit = 0.001, normalization = 2.48326e-07, conv = false ---[precice]  iteration: 5 of 100, time-window: 1, time: 0 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 1 attempt 2 increment size= 1.000000e-07 sum of previous increments=0.000000e+00 actual step time=1.000000e-07 actual total time=1.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 2081 and dof 2 largest increment of disp= 2.743070e-13 largest correction to disp= 2.743070e-13 in node 207 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 938 and dof 2 largest increment of disp= 2.743070e-13 largest correction to disp= 1.852589e-21 in node 1039 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.42419e-06, limit = 0.001, normalization = 3.04991e-14, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000627063, limit = 0.001, normalization = 2.48039e-07, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 2, time: 1e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 2 attempt 1 increment size= 1.000000e-07 sum of previous increments=1.000000e-07 actual step time=2.000000e-07 actual total time=2.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1041 and dof 2 largest increment of disp= 7.706722e-13 largest correction to disp= 2.188607e-13 in node 165 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 800 and dof 2 largest increment of disp= 7.706722e-13 largest correction to disp= 2.964544e-21 in node 1041 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.93093, limit = 0.001, normalization = 3.94435e-13, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.16601, limit = 0.001, normalization = 2.12725e-07, conv = false ---[precice]  iteration: 2 of 100, time-window: 2, time: 1e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 2 attempt 2 increment size= 1.000000e-07 sum of previous increments=1.000000e-07 actual step time=2.000000e-07 actual total time=2.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1041 and dof 2 largest increment of disp= 7.706722e-13 largest correction to disp= 2.188623e-13 in node 165 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1131 and dof 2 largest increment of disp= 7.706722e-13 largest correction to disp= 2.964630e-21 in node 1041 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00293361, limit = 0.001, normalization = 3.93669e-13, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.393419, limit = 0.001, normalization = 3.63972e-06, conv = false ---[precice]  iteration: 3 of 100, time-window: 2, time: 1e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 2 attempt 2 increment size= 1.000000e-07 sum of previous increments=1.000000e-07 actual step time=2.000000e-07 actual total time=2.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1041 and dof 2 largest increment of disp= 7.706722e-13 largest correction to disp= 2.188615e-13 in node 165 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 293 and dof 2 largest increment of disp= 7.706722e-13 largest correction to disp= 2.964586e-21 in node 1041 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00076053, limit = 0.001, normalization = 3.94044e-13, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.258389, limit = 0.001, normalization = 3.64067e-06, conv = false ---[precice]  iteration: 4 of 100, time-window: 2, time: 1e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 2 attempt 2 increment size= 1.000000e-07 sum of previous increments=1.000000e-07 actual step time=2.000000e-07 actual total time=2.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1041 and dof 2 largest increment of disp= 7.706722e-13 largest correction to disp= 2.188618e-13 in node 165 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1651 and dof 2 largest increment of disp= 7.706722e-13 largest correction to disp= 2.964601e-21 in node 1041 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.38228e-05, limit = 0.001, normalization = 3.93895e-13, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000287738, limit = 0.001, normalization = 3.63697e-06, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3, time: 2e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3 attempt 1 increment size= 1.000000e-07 sum of previous increments=2.000000e-07 actual step time=3.000000e-07 actual total time=3.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 2081 and dof 2 largest increment of disp= 9.238741e-13 largest correction to disp= 2.062222e-13 in node 207 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1227 and dof 2 largest increment of disp= 9.238741e-13 largest correction to disp= 1.566455e-21 in node 314 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.851262, limit = 0.001, normalization = 2.61394e-12, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.10136, limit = 0.001, normalization = 3.30226e-06, conv = false ---[precice]  iteration: 2 of 100, time-window: 3, time: 2e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3 attempt 2 increment size= 1.000000e-07 sum of previous increments=2.000000e-07 actual step time=3.000000e-07 actual total time=3.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 2099 and dof 2 largest increment of disp= 9.238741e-13 largest correction to disp= 2.062208e-13 in node 207 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1328 and dof 2 largest increment of disp= 9.238741e-13 largest correction to disp= 1.566481e-21 in node 314 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00105686, limit = 0.001, normalization = 2.60834e-12, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.236027, limit = 0.001, normalization = 2.10815e-05, conv = false ---[precice]  iteration: 3 of 100, time-window: 3, time: 2e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3 attempt 2 increment size= 1.000000e-07 sum of previous increments=2.000000e-07 actual step time=3.000000e-07 actual total time=3.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 2099 and dof 2 largest increment of disp= 9.238741e-13 largest correction to disp= 2.062211e-13 in node 207 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1233 and dof 2 largest increment of disp= 9.238741e-13 largest correction to disp= 1.568820e-21 in node 2098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000494028, limit = 0.001, normalization = 2.60955e-12, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00576454, limit = 0.001, normalization = 2.10772e-05, conv = false ---[precice]  iteration: 4 of 100, time-window: 3, time: 2e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3 attempt 2 increment size= 1.000000e-07 sum of previous increments=2.000000e-07 actual step time=3.000000e-07 actual total time=3.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 2099 and dof 2 largest increment of disp= 9.238741e-13 largest correction to disp= 2.062211e-13 in node 207 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1443 and dof 2 largest increment of disp= 9.238741e-13 largest correction to disp= 1.566471e-21 in node 314 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.22027e-07, limit = 0.001, normalization = 2.60958e-12, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 7.94401e-05, limit = 0.001, normalization = 2.10843e-05, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 4, time: 3e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 4 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.000000e-07 actual step time=4.000000e-07 actual total time=4.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1145 and dof 2 largest increment of disp= 1.482470e-12 largest correction to disp= 2.855041e-13 in node 3 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1972 and dof 2 largest increment of disp= 1.482470e-12 largest correction to disp= 3.198466e-21 in node 1145 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.738041, limit = 0.001, normalization = 9.8973e-12, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.9989, limit = 0.001, normalization = 2.11075e-05, conv = false ---[precice]  iteration: 2 of 100, time-window: 4, time: 3e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 4 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.000000e-07 actual step time=4.000000e-07 actual total time=4.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1145 and dof 2 largest increment of disp= 1.482470e-12 largest correction to disp= 2.860683e-13 in node 77 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 380 and dof 2 largest increment of disp= 1.482470e-12 largest correction to disp= 3.194665e-21 in node 1145 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000233421, limit = 0.001, normalization = 9.88295e-12, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0303244, limit = 0.001, normalization = 6.12472e-05, conv = false ---[precice]  iteration: 3 of 100, time-window: 4, time: 3e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 4 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.000000e-07 actual step time=4.000000e-07 actual total time=4.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1145 and dof 2 largest increment of disp= 1.482470e-12 largest correction to disp= 2.859602e-13 in node 77 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1755 and dof 2 largest increment of disp= 1.482470e-12 largest correction to disp= 3.194814e-21 in node 1145 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.74351e-05, limit = 0.001, normalization = 9.88357e-12, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000816367, limit = 0.001, normalization = 6.12414e-05, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 5, time: 4e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 5 attempt 1 increment size= 1.000000e-07 sum of previous increments=4.000000e-07 actual step time=5.000000e-07 actual total time=5.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 997 and dof 2 largest increment of disp= 1.635141e-12 largest correction to disp= 2.769690e-13 in node 107 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 922 and dof 2 largest increment of disp= 1.635141e-12 largest correction to disp= 3.264648e-21 in node 207 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.597985, limit = 0.001, normalization = 2.43939e-11, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.84661, limit = 0.001, normalization = 7.23376e-05, conv = false ---[precice]  iteration: 2 of 100, time-window: 5, time: 4e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 5 attempt 2 increment size= 1.000000e-07 sum of previous increments=4.000000e-07 actual step time=5.000000e-07 actual total time=5.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1735 and dof 2 largest increment of disp= 3.381969e-12 largest correction to disp= 3.381969e-12 in node 1735 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1706 and dof 2 largest increment of disp= 3.381969e-12 largest correction to disp= 3.360708e-12 in node 1735 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000164035, limit = 0.001, normalization = 2.43797e-11, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0245306, limit = 0.001, normalization = 9.62199e-05, conv = false ---[precice]  iteration: 3 of 100, time-window: 5, time: 4e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 5 attempt 2 increment size= 1.000000e-07 sum of previous increments=4.000000e-07 actual step time=5.000000e-07 actual total time=5.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1209 and dof 2 largest increment of disp= 1.635141e-12 largest correction to disp= 2.769490e-13 in node 107 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 707 and dof 2 largest increment of disp= 1.635141e-12 largest correction to disp= 3.264689e-21 in node 207 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.20055e-05, limit = 0.001, normalization = 2.43788e-11, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000595397, limit = 0.001, normalization = 9.62038e-05, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 6, time: 5e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 6 attempt 1 increment size= 1.000000e-07 sum of previous increments=5.000000e-07 actual step time=6.000000e-07 actual total time=6.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1623 and dof 2 largest increment of disp= 2.255872e-12 largest correction to disp= 2.804511e-13 in node 165 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 163 and dof 2 largest increment of disp= 2.255872e-12 largest correction to disp= 7.096308e-21 in node 297 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.465292, limit = 0.001, normalization = 4.52941e-11, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.63553, limit = 0.001, normalization = 0.000151375, conv = false ---[precice]  iteration: 2 of 100, time-window: 6, time: 5e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 6 attempt 2 increment size= 1.000000e-07 sum of previous increments=5.000000e-07 actual step time=6.000000e-07 actual total time=6.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1623 and dof 2 largest increment of disp= 2.255872e-12 largest correction to disp= 2.804553e-13 in node 165 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1940 and dof 2 largest increment of disp= 2.255872e-12 largest correction to disp= 7.096477e-21 in node 297 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000287159, limit = 0.001, normalization = 4.52918e-11, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.043279, limit = 0.001, normalization = 9.6371e-05, conv = false ---[precice]  iteration: 3 of 100, time-window: 6, time: 5e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 6 attempt 2 increment size= 1.000000e-07 sum of previous increments=5.000000e-07 actual step time=6.000000e-07 actual total time=6.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1623 and dof 2 largest increment of disp= 2.255872e-12 largest correction to disp= 2.804512e-13 in node 165 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 696 and dof 2 largest increment of disp= 2.255872e-12 largest correction to disp= 7.096336e-21 in node 297 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.78715e-05, limit = 0.001, normalization = 4.5294e-11, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000539272, limit = 0.001, normalization = 9.63598e-05, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 7, time: 6e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 7 attempt 1 increment size= 1.000000e-07 sum of previous increments=6.000000e-07 actual step time=7.000000e-07 actual total time=7.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1178 and dof 2 largest increment of disp= 2.801571e-12 largest correction to disp= 3.488903e-13 in node 1174 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1549 and dof 2 largest increment of disp= 2.801571e-12 largest correction to disp= 8.235660e-21 in node 298 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.380597, limit = 0.001, normalization = 7.28739e-11, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.42226, limit = 0.001, normalization = 0.000228199, conv = false ---[precice]  iteration: 2 of 100, time-window: 7, time: 6e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 7 attempt 2 increment size= 1.000000e-07 sum of previous increments=6.000000e-07 actual step time=7.000000e-07 actual total time=7.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1178 and dof 2 largest increment of disp= 2.801571e-12 largest correction to disp= 3.484144e-13 in node 964 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 234 and dof 2 largest increment of disp= 2.801571e-12 largest correction to disp= 8.232946e-21 in node 298 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000397554, limit = 0.001, normalization = 7.28553e-11, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.239013, limit = 0.001, normalization = 0.000101936, conv = false ---[precice]  iteration: 3 of 100, time-window: 7, time: 6e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 7 attempt 2 increment size= 1.000000e-07 sum of previous increments=6.000000e-07 actual step time=7.000000e-07 actual total time=7.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1178 and dof 2 largest increment of disp= 2.801571e-12 largest correction to disp= 3.487880e-13 in node 964 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 394 and dof 2 largest increment of disp= 2.801571e-12 largest correction to disp= 8.235180e-21 in node 298 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 8.27615e-05, limit = 0.001, normalization = 7.28705e-11, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00109163, limit = 0.001, normalization = 0.000101956, conv = false ---[precice]  iteration: 4 of 100, time-window: 7, time: 6e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 7 attempt 2 increment size= 1.000000e-07 sum of previous increments=6.000000e-07 actual step time=7.000000e-07 actual total time=7.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1178 and dof 2 largest increment of disp= 2.801571e-12 largest correction to disp= 3.487858e-13 in node 964 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1947 and dof 2 largest increment of disp= 2.801571e-12 largest correction to disp= 8.235154e-21 in node 298 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.19342e-07, limit = 0.001, normalization = 7.28704e-11, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 3.20876e-05, limit = 0.001, normalization = 0.000101984, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 8, time: 7e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 8 attempt 1 increment size= 1.000000e-07 sum of previous increments=7.000000e-07 actual step time=8.000000e-07 actual total time=8.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1632 and dof 2 largest increment of disp= 3.842732e-12 largest correction to disp= 3.192599e-13 in node 1632 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1653 and dof 2 largest increment of disp= 3.842732e-12 largest correction to disp= 1.903324e-13 in node 1632 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.333722, limit = 0.001, normalization = 1.08925e-10, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.33034, limit = 0.001, normalization = 0.000308726, conv = false ---[precice]  iteration: 2 of 100, time-window: 8, time: 7e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 8 attempt 2 increment size= 1.000000e-07 sum of previous increments=7.000000e-07 actual step time=8.000000e-07 actual total time=8.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 3 and dof 2 largest increment of disp= 3.842732e-12 largest correction to disp= 2.709281e-13 in node 79 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 1434 and dof 2 largest increment of disp= 3.842732e-12 largest correction to disp= 7.788245e-21 in node 207 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.91363e-05, limit = 0.001, normalization = 1.08906e-10, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0183957, limit = 0.001, normalization = 0.000125889, conv = false ---[precice]  iteration: 3 of 100, time-window: 8, time: 7e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 8 attempt 2 increment size= 1.000000e-07 sum of previous increments=7.000000e-07 actual step time=8.000000e-07 actual total time=8.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 3 and dof 2 largest increment of disp= 3.842732e-12 largest correction to disp= 2.708732e-13 in node 79 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 271 and dof 2 largest increment of disp= 3.842732e-12 largest correction to disp= 7.788083e-21 in node 207 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.20919e-06, limit = 0.001, normalization = 1.08908e-10, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 9.31494e-05, limit = 0.001, normalization = 0.000125887, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 9, time: 8e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 9 attempt 1 increment size= 1.000000e-07 sum of previous increments=8.000000e-07 actual step time=9.000000e-07 actual total time=9.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 743 and dof 2 largest increment of disp= 4.367660e-12 largest correction to disp= 3.847513e-13 in node 3 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 950 and dof 2 largest increment of disp= 4.367660e-12 largest correction to disp= 2.933529e-13 in node 846 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.302246, limit = 0.001, normalization = 1.55649e-10, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.30795, limit = 0.001, normalization = 0.000408793, conv = false ---[precice]  iteration: 2 of 100, time-window: 9, time: 8e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 9 attempt 2 increment size= 1.000000e-07 sum of previous increments=8.000000e-07 actual step time=9.000000e-07 actual total time=9.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 3 and dof 2 largest increment of disp= 4.367660e-12 largest correction to disp= 3.815057e-13 in node 77 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 395 and dof 2 largest increment of disp= 4.367660e-12 largest correction to disp= 7.062620e-21 in node 205 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000208683, limit = 0.001, normalization = 1.5564e-10, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.130344, limit = 0.001, normalization = 0.000156654, conv = false ---[precice]  iteration: 3 of 100, time-window: 9, time: 8e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 9 attempt 2 increment size= 1.000000e-07 sum of previous increments=8.000000e-07 actual step time=9.000000e-07 actual total time=9.000000e-07 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 77 and dof 2 largest increment of disp= 4.367660e-12 largest correction to disp= 3.842400e-13 in node 77 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 707 and dof 2 largest increment of disp= 4.367660e-12 largest correction to disp= 7.059784e-21 in node 205 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.57873e-05, limit = 0.001, normalization = 1.55624e-10, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000714526, limit = 0.001, normalization = 0.000156638, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 10, time: 9e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 10 attempt 1 increment size= 1.000000e-07 sum of previous increments=9.000000e-07 actual step time=1.000000e-06 actual total time=1.000000e-06 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 247 and dof 2 largest increment of disp= 4.877849e-12 largest correction to disp= 3.148608e-13 in node 23 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 695 and dof 2 largest increment of disp= 4.877849e-12 largest correction to disp= 1.249292e-20 in node 205 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.278001, limit = 0.001, normalization = 2.15219e-10, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.29353, limit = 0.001, normalization = 0.000533629, conv = false ---[precice]  iteration: 2 of 100, time-window: 10, time: 9e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 10 attempt 2 increment size= 1.000000e-07 sum of previous increments=9.000000e-07 actual step time=1.000000e-06 actual total time=1.000000e-06 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 2064 and dof 2 largest increment of disp= 4.877849e-12 largest correction to disp= 4.069439e-12 in node 1904 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 2085 and dof 2 largest increment of disp= 4.877849e-12 largest correction to disp= 3.881737e-12 in node 1904 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.91317e-05, limit = 0.001, normalization = 2.15191e-10, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00323917, limit = 0.001, normalization = 0.000188474, conv = false ---[precice]  iteration: 3 of 100, time-window: 10, time: 9e-07 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 10 attempt 2 increment size= 1.000000e-07 sum of previous increments=9.000000e-07 actual step time=1.000000e-06 actual total time=1.000000e-06 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 247 and dof 2 largest increment of disp= 4.877849e-12 largest correction to disp= 3.149964e-13 in node 23 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000000 time avg. forc= 0.010000 largest residual force= 0.000000 in node 817 and dof 2 largest increment of disp= 4.877849e-12 largest correction to disp= 1.249293e-20 in node 205 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.02907e-05, limit = 0.001, normalization = 2.1519e-10, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 4.64652e-07, limit = 0.001, normalization = 0.000188496, conv = true ---[precice]  All converged ---[precice]  Time window completed ............................ ......................... ---[precice]  iteration: 1 of 100, time-window: 3578, time: 0.0003577 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3578 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.577000e-04 actual step time=3.578000e-04 actual total time=3.578000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000244 time avg. forc= 0.000017 largest residual force= 0.000011 in node 1128 and dof 2 largest increment of disp= 1.848181e-06 largest correction to disp= 1.547680e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000244 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 1.848181e-06 largest correction to disp= 1.119488e-09 in node 1352 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0319096, limit = 0.001, normalization = 0.000183451, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.17971, limit = 0.001, normalization = 0.542106, conv = false ---[precice]  iteration: 2 of 100, time-window: 3578, time: 0.0003577 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3578 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.577000e-04 actual step time=3.578000e-04 actual total time=3.578000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000236 time avg. forc= 0.000017 largest residual force= 0.000012 in node 1128 and dof 2 largest increment of disp= 1.848181e-06 largest correction to disp= 4.356614e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000236 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 1.848181e-06 largest correction to disp= 1.327543e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0041909, limit = 0.001, normalization = 0.000183409, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.164268, limit = 0.001, normalization = 0.164655, conv = false ---[precice]  iteration: 3 of 100, time-window: 3578, time: 0.0003577 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3578 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.577000e-04 actual step time=3.578000e-04 actual total time=3.578000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000236 time avg. forc= 0.000017 largest residual force= 0.000012 in node 1128 and dof 2 largest increment of disp= 1.848181e-06 largest correction to disp= 4.407821e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000236 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 1.848181e-06 largest correction to disp= 1.317082e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000378754, limit = 0.001, normalization = 0.00018341, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.131795, limit = 0.001, normalization = 0.164804, conv = false ---[precice]  iteration: 4 of 100, time-window: 3578, time: 0.0003577 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3578 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.577000e-04 actual step time=3.578000e-04 actual total time=3.578000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000236 time avg. forc= 0.000017 largest residual force= 0.000012 in node 1128 and dof 2 largest increment of disp= 1.848181e-06 largest correction to disp= 4.400732e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000236 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 1.848181e-06 largest correction to disp= 1.332653e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 9.7142e-05, limit = 0.001, normalization = 0.000183404, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0112418, limit = 0.001, normalization = 0.164852, conv = false ---[precice]  iteration: 5 of 100, time-window: 3578, time: 0.0003577 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3578 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.577000e-04 actual step time=3.578000e-04 actual total time=3.578000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000236 time avg. forc= 0.000017 largest residual force= 0.000012 in node 1128 and dof 2 largest increment of disp= 1.848181e-06 largest correction to disp= 4.400082e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000236 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 1.848181e-06 largest correction to disp= 1.332888e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.98748e-05, limit = 0.001, normalization = 0.000183404, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00512594, limit = 0.001, normalization = 0.164829, conv = false ---[precice]  iteration: 6 of 100, time-window: 3578, time: 0.0003577 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3578 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.577000e-04 actual step time=3.578000e-04 actual total time=3.578000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000236 time avg. forc= 0.000017 largest residual force= 0.000012 in node 1128 and dof 2 largest increment of disp= 1.848181e-06 largest correction to disp= 4.400411e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000236 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 1.848181e-06 largest correction to disp= 1.332392e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.19421e-06, limit = 0.001, normalization = 0.000183404, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000670294, limit = 0.001, normalization = 0.164827, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3579, time: 0.0003578 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3579 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.578000e-04 actual step time=3.579000e-04 actual total time=3.579000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000158 time avg. forc= 0.000017 largest residual force= 0.000011 in node 1384 and dof 2 largest increment of disp= 2.287547e-06 largest correction to disp= 1.582468e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000158 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.287547e-06 largest correction to disp= 8.004620e-10 in node 1487 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0305921, limit = 0.001, normalization = 0.000183445, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.02032, limit = 0.001, normalization = 0.49904, conv = false ---[precice]  iteration: 2 of 100, time-window: 3579, time: 0.0003578 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3579 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.578000e-04 actual step time=3.579000e-04 actual total time=3.579000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000161 time avg. forc= 0.000017 largest residual force= 0.000007 in node 1594 and dof 2 largest increment of disp= 2.287547e-06 largest correction to disp= 9.355541e-07 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000161 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.287547e-06 largest correction to disp= 6.858397e-10 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00254688, limit = 0.001, normalization = 0.000183576, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.266898, limit = 0.001, normalization = 0.271808, conv = false ---[precice]  iteration: 3 of 100, time-window: 3579, time: 0.0003578 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3579 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.578000e-04 actual step time=3.579000e-04 actual total time=3.579000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000161 time avg. forc= 0.000017 largest residual force= 0.000007 in node 1594 and dof 2 largest increment of disp= 2.287547e-06 largest correction to disp= 9.354275e-07 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000161 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.287547e-06 largest correction to disp= 6.001332e-10 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000308837, limit = 0.001, normalization = 0.000183558, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0164121, limit = 0.001, normalization = 0.271809, conv = false ---[precice]  iteration: 4 of 100, time-window: 3579, time: 0.0003578 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3579 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.578000e-04 actual step time=3.579000e-04 actual total time=3.579000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000161 time avg. forc= 0.000017 largest residual force= 0.000007 in node 1594 and dof 2 largest increment of disp= 2.287547e-06 largest correction to disp= 9.339767e-07 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000161 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.287547e-06 largest correction to disp= 6.106916e-10 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 6.60005e-05, limit = 0.001, normalization = 0.000183561, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00342793, limit = 0.001, normalization = 0.271976, conv = false ---[precice]  iteration: 5 of 100, time-window: 3579, time: 0.0003578 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3579 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.578000e-04 actual step time=3.579000e-04 actual total time=3.579000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000161 time avg. forc= 0.000017 largest residual force= 0.000007 in node 1594 and dof 2 largest increment of disp= 2.287547e-06 largest correction to disp= 9.338722e-07 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000161 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.287547e-06 largest correction to disp= 6.099997e-10 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.77149e-05, limit = 0.001, normalization = 0.000183561, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000673201, limit = 0.001, normalization = 0.271983, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3580, time: 0.0003579 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3580 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.579000e-04 actual step time=3.580000e-04 actual total time=3.580000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000276 time avg. forc= 0.000017 largest residual force= 0.000019 in node 1280 and dof 2 largest increment of disp= 1.215236e-06 largest correction to disp= 7.044267e-07 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000276 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 1.215236e-06 largest correction to disp= 1.472317e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0259211, limit = 0.001, normalization = 0.000183515, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.27033, limit = 0.001, normalization = 0.518233, conv = false ---[precice]  iteration: 2 of 100, time-window: 3580, time: 0.0003579 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3580 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.579000e-04 actual step time=3.580000e-04 actual total time=3.580000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000268 time avg. forc= 0.000017 largest residual force= 0.000017 in node 1333 and dof 2 largest increment of disp= 1.215236e-06 largest correction to disp= 4.827855e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000268 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.215236e-06 largest correction to disp= 1.461243e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00305454, limit = 0.001, normalization = 0.000183369, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.20245, limit = 0.001, normalization = 0.088225, conv = false ---[precice]  iteration: 3 of 100, time-window: 3580, time: 0.0003579 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3580 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.579000e-04 actual step time=3.580000e-04 actual total time=3.580000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000268 time avg. forc= 0.000017 largest residual force= 0.000017 in node 1333 and dof 2 largest increment of disp= 1.215236e-06 largest correction to disp= 4.669912e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000268 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.215236e-06 largest correction to disp= 1.462662e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000401939, limit = 0.001, normalization = 0.000183405, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.151084, limit = 0.001, normalization = 0.0771206, conv = false ---[precice]  iteration: 4 of 100, time-window: 3580, time: 0.0003579 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3580 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.579000e-04 actual step time=3.580000e-04 actual total time=3.580000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000268 time avg. forc= 0.000017 largest residual force= 0.000017 in node 1333 and dof 2 largest increment of disp= 1.215236e-06 largest correction to disp= 4.677209e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000268 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.215236e-06 largest correction to disp= 1.462188e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000126779, limit = 0.001, normalization = 0.000183407, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.084204, limit = 0.001, normalization = 0.0742279, conv = false ---[precice]  iteration: 5 of 100, time-window: 3580, time: 0.0003579 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3580 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.579000e-04 actual step time=3.580000e-04 actual total time=3.580000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000268 time avg. forc= 0.000017 largest residual force= 0.000017 in node 1333 and dof 2 largest increment of disp= 1.215236e-06 largest correction to disp= 4.678207e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000268 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.215236e-06 largest correction to disp= 1.461924e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.62564e-05, limit = 0.001, normalization = 0.000183406, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00486201, limit = 0.001, normalization = 0.0741424, conv = false ---[precice]  iteration: 6 of 100, time-window: 3580, time: 0.0003579 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3580 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.579000e-04 actual step time=3.580000e-04 actual total time=3.580000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000268 time avg. forc= 0.000017 largest residual force= 0.000017 in node 1333 and dof 2 largest increment of disp= 1.215236e-06 largest correction to disp= 4.677735e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000268 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.215236e-06 largest correction to disp= 1.461918e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.8209e-06, limit = 0.001, normalization = 0.000183406, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00241307, limit = 0.001, normalization = 0.0741142, conv = false ---[precice]  iteration: 7 of 100, time-window: 3580, time: 0.0003579 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3580 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.579000e-04 actual step time=3.580000e-04 actual total time=3.580000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000268 time avg. forc= 0.000017 largest residual force= 0.000017 in node 1333 and dof 2 largest increment of disp= 1.215236e-06 largest correction to disp= 4.677239e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000268 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1068 and dof 2 largest increment of disp= 1.215236e-06 largest correction to disp= 1.461126e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.63544e-06, limit = 0.001, normalization = 0.000183406, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000231777, limit = 0.001, normalization = 0.0741092, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3581, time: 0.000358 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3581 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.580000e-04 actual step time=3.581000e-04 actual total time=3.581000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000176 time avg. forc= 0.000017 largest residual force= 0.000013 in node 1487 and dof 2 largest increment of disp= 2.417188e-06 largest correction to disp= 1.844169e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000176 time avg. forc= 0.000017 largest residual force= 0.000000 in node 762 and dof 2 largest increment of disp= 2.417188e-06 largest correction to disp= 7.423229e-10 in node 970 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0360599, limit = 0.001, normalization = 0.000183488, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.03623, limit = 0.001, normalization = 0.525009, conv = false ---[precice]  iteration: 2 of 100, time-window: 3581, time: 0.000358 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3581 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.580000e-04 actual step time=3.581000e-04 actual total time=3.581000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000173 time avg. forc= 0.000017 largest residual force= 0.000007 in node 762 and dof 2 largest increment of disp= 2.417188e-06 largest correction to disp= 6.502965e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000173 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 2.417188e-06 largest correction to disp= 7.792980e-10 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00477988, limit = 0.001, normalization = 0.000183562, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0392542, limit = 0.001, normalization = 0.288653, conv = false ---[precice]  iteration: 3 of 100, time-window: 3581, time: 0.000358 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3581 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.580000e-04 actual step time=3.581000e-04 actual total time=3.581000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000173 time avg. forc= 0.000017 largest residual force= 0.000007 in node 762 and dof 2 largest increment of disp= 2.417188e-06 largest correction to disp= 6.200115e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000173 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 2.417188e-06 largest correction to disp= 7.133173e-10 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00133107, limit = 0.001, normalization = 0.000183614, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.135463, limit = 0.001, normalization = 0.277213, conv = false ---[precice]  iteration: 4 of 100, time-window: 3581, time: 0.000358 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3581 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.580000e-04 actual step time=3.581000e-04 actual total time=3.581000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000173 time avg. forc= 0.000017 largest residual force= 0.000007 in node 762 and dof 2 largest increment of disp= 2.417188e-06 largest correction to disp= 6.201497e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000173 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 2.417188e-06 largest correction to disp= 6.996031e-10 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000633075, limit = 0.001, normalization = 0.000183604, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.105664, limit = 0.001, normalization = 0.273088, conv = false ---[precice]  iteration: 5 of 100, time-window: 3581, time: 0.000358 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3581 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.580000e-04 actual step time=3.581000e-04 actual total time=3.581000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000173 time avg. forc= 0.000017 largest residual force= 0.000007 in node 762 and dof 2 largest increment of disp= 2.417188e-06 largest correction to disp= 6.179184e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000173 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 2.417188e-06 largest correction to disp= 7.323801e-10 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000155701, limit = 0.001, normalization = 0.00018359, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0436334, limit = 0.001, normalization = 0.272347, conv = false ---[precice]  iteration: 6 of 100, time-window: 3581, time: 0.000358 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3581 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.580000e-04 actual step time=3.581000e-04 actual total time=3.581000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000173 time avg. forc= 0.000017 largest residual force= 0.000007 in node 762 and dof 2 largest increment of disp= 2.417188e-06 largest correction to disp= 6.185566e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000173 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 2.417188e-06 largest correction to disp= 7.272811e-10 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.38967e-05, limit = 0.001, normalization = 0.000183592, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000454348, limit = 0.001, normalization = 0.27232, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3582, time: 0.0003581 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3582 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.581000e-04 actual step time=3.582000e-04 actual total time=3.582000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000237 time avg. forc= 0.000017 largest residual force= 0.000012 in node 1333 and dof 2 largest increment of disp= 1.401402e-06 largest correction to disp= 9.134715e-07 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000237 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.401402e-06 largest correction to disp= 1.219160e-09 in node 1099 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0252927, limit = 0.001, normalization = 0.000183766, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.21266, limit = 0.001, normalization = 0.49365, conv = false ---[precice]  iteration: 2 of 100, time-window: 3582, time: 0.0003581 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3582 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.581000e-04 actual step time=3.582000e-04 actual total time=3.582000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000234 time avg. forc= 0.000017 largest residual force= 0.000012 in node 1333 and dof 2 largest increment of disp= 1.401402e-06 largest correction to disp= 9.985556e-07 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000234 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.401402e-06 largest correction to disp= 1.236474e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00345262, limit = 0.001, normalization = 0.000183774, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.639819, limit = 0.001, normalization = 0.198561, conv = false ---[precice]  iteration: 3 of 100, time-window: 3582, time: 0.0003581 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3582 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.581000e-04 actual step time=3.582000e-04 actual total time=3.582000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000235 time avg. forc= 0.000017 largest residual force= 0.000012 in node 1333 and dof 2 largest increment of disp= 1.401402e-06 largest correction to disp= 9.787986e-07 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000235 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.401402e-06 largest correction to disp= 1.308983e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000448037, limit = 0.001, normalization = 0.000183756, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0375604, limit = 0.001, normalization = 0.194207, conv = false ---[precice]  iteration: 4 of 100, time-window: 3582, time: 0.0003581 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3582 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.581000e-04 actual step time=3.582000e-04 actual total time=3.582000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000235 time avg. forc= 0.000017 largest residual force= 0.000012 in node 1333 and dof 2 largest increment of disp= 1.401402e-06 largest correction to disp= 9.749089e-07 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000235 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.401402e-06 largest correction to disp= 1.312586e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 8.34976e-05, limit = 0.001, normalization = 0.000183756, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.012602, limit = 0.001, normalization = 0.194199, conv = false ---[precice]  iteration: 5 of 100, time-window: 3582, time: 0.0003581 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3582 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.581000e-04 actual step time=3.582000e-04 actual total time=3.582000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000235 time avg. forc= 0.000017 largest residual force= 0.000012 in node 1333 and dof 2 largest increment of disp= 1.401402e-06 largest correction to disp= 9.754144e-07 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000235 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.401402e-06 largest correction to disp= 1.315270e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.74338e-05, limit = 0.001, normalization = 0.000183755, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00074379, limit = 0.001, normalization = 0.194219, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3583, time: 0.0003582 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3583 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.582000e-04 actual step time=3.583000e-04 actual total time=3.583000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000266 time avg. forc= 0.000017 largest residual force= 0.000014 in node 1128 and dof 2 largest increment of disp= 1.995420e-06 largest correction to disp= 1.665980e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000266 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 1.995420e-06 largest correction to disp= 1.321099e-09 in node 1352 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0344091, limit = 0.001, normalization = 0.000183739, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.206, limit = 0.001, normalization = 0.550124, conv = false ---[precice]  iteration: 2 of 100, time-window: 3583, time: 0.0003582 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3583 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.582000e-04 actual step time=3.583000e-04 actual total time=3.583000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000256 time avg. forc= 0.000017 largest residual force= 0.000014 in node 1128 and dof 2 largest increment of disp= 1.995420e-06 largest correction to disp= 4.691597e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000256 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 1.995420e-06 largest correction to disp= 1.528864e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0026596, limit = 0.001, normalization = 0.000183699, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.289623, limit = 0.001, normalization = 0.176884, conv = false ---[precice]  iteration: 3 of 100, time-window: 3583, time: 0.0003582 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3583 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.582000e-04 actual step time=3.583000e-04 actual total time=3.583000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000256 time avg. forc= 0.000017 largest residual force= 0.000014 in node 1128 and dof 2 largest increment of disp= 1.995420e-06 largest correction to disp= 4.743181e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000256 time avg. forc= 0.000017 largest residual force= 0.000000 in node 598 and dof 1 largest increment of disp= 1.995420e-06 largest correction to disp= 1.589777e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000378666, limit = 0.001, normalization = 0.000183678, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0648117, limit = 0.001, normalization = 0.175245, conv = false ---[precice]  iteration: 4 of 100, time-window: 3583, time: 0.0003582 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3583 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.582000e-04 actual step time=3.583000e-04 actual total time=3.583000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000256 time avg. forc= 0.000017 largest residual force= 0.000014 in node 1128 and dof 2 largest increment of disp= 1.995420e-06 largest correction to disp= 4.752572e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000256 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 1.995420e-06 largest correction to disp= 1.582746e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000131662, limit = 0.001, normalization = 0.000183681, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0220631, limit = 0.001, normalization = 0.175246, conv = false ---[precice]  iteration: 5 of 100, time-window: 3583, time: 0.0003582 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3583 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.582000e-04 actual step time=3.583000e-04 actual total time=3.583000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000256 time avg. forc= 0.000017 largest residual force= 0.000014 in node 1128 and dof 2 largest increment of disp= 1.995420e-06 largest correction to disp= 4.755369e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000256 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 1.995420e-06 largest correction to disp= 1.580559e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.8772e-05, limit = 0.001, normalization = 0.000183681, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00204155, limit = 0.001, normalization = 0.175247, conv = false ---[precice]  iteration: 6 of 100, time-window: 3583, time: 0.0003582 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3583 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.582000e-04 actual step time=3.583000e-04 actual total time=3.583000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000256 time avg. forc= 0.000017 largest residual force= 0.000014 in node 1128 and dof 2 largest increment of disp= 1.995420e-06 largest correction to disp= 4.754740e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000256 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 1.995420e-06 largest correction to disp= 1.580731e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.85261e-06, limit = 0.001, normalization = 0.000183681, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 8.11777e-05, limit = 0.001, normalization = 0.175249, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3584, time: 0.0003583 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3584 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.583000e-04 actual step time=3.584000e-04 actual total time=3.584000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000169 time avg. forc= 0.000017 largest residual force= 0.000014 in node 1384 and dof 2 largest increment of disp= 2.500000e-06 largest correction to disp= 1.729856e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000169 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.500000e-06 largest correction to disp= 9.522554e-10 in node 1487 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0333219, limit = 0.001, normalization = 0.000183725, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.02077, limit = 0.001, normalization = 0.501368, conv = false ---[precice]  iteration: 2 of 100, time-window: 3584, time: 0.0003583 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3584 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.583000e-04 actual step time=3.584000e-04 actual total time=3.584000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000172 time avg. forc= 0.000017 largest residual force= 0.000009 in node 1594 and dof 2 largest increment of disp= 2.500000e-06 largest correction to disp= 1.017730e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000172 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.500000e-06 largest correction to disp= 7.344272e-10 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00432671, limit = 0.001, normalization = 0.000183863, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.155074, limit = 0.001, normalization = 0.296796, conv = false ---[precice]  iteration: 3 of 100, time-window: 3584, time: 0.0003583 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3584 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.583000e-04 actual step time=3.584000e-04 actual total time=3.584000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000172 time avg. forc= 0.000017 largest residual force= 0.000009 in node 1594 and dof 2 largest increment of disp= 2.500000e-06 largest correction to disp= 1.006315e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000172 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.500000e-06 largest correction to disp= 7.150949e-10 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000508586, limit = 0.001, normalization = 0.000183863, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0597116, limit = 0.001, normalization = 0.29681, conv = false ---[precice]  iteration: 4 of 100, time-window: 3584, time: 0.0003583 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3584 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.583000e-04 actual step time=3.584000e-04 actual total time=3.584000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000172 time avg. forc= 0.000017 largest residual force= 0.000009 in node 1594 and dof 2 largest increment of disp= 2.500000e-06 largest correction to disp= 1.008874e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000172 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.500000e-06 largest correction to disp= 7.175829e-10 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 9.94669e-05, limit = 0.001, normalization = 0.000183863, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0103432, limit = 0.001, normalization = 0.295866, conv = false ---[precice]  iteration: 5 of 100, time-window: 3584, time: 0.0003583 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3584 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.583000e-04 actual step time=3.584000e-04 actual total time=3.584000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000172 time avg. forc= 0.000017 largest residual force= 0.000009 in node 1594 and dof 2 largest increment of disp= 2.500000e-06 largest correction to disp= 1.009078e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000172 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.500000e-06 largest correction to disp= 7.216219e-10 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.3773e-05, limit = 0.001, normalization = 0.000183864, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000182849, limit = 0.001, normalization = 0.295879, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3585, time: 0.0003584 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3585 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.584000e-04 actual step time=3.585000e-04 actual total time=3.585000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000298 time avg. forc= 0.000017 largest residual force= 0.000023 in node 1280 and dof 2 largest increment of disp= 1.303249e-06 largest correction to disp= 7.367237e-07 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000298 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 1.303249e-06 largest correction to disp= 1.732336e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0279131, limit = 0.001, normalization = 0.000183807, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.31082, limit = 0.001, normalization = 0.51846, conv = false ---[precice]  iteration: 2 of 100, time-window: 3585, time: 0.0003584 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3585 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.584000e-04 actual step time=3.585000e-04 actual total time=3.585000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000290 time avg. forc= 0.000017 largest residual force= 0.000020 in node 1333 and dof 2 largest increment of disp= 1.303249e-06 largest correction to disp= 5.282360e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000290 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.303249e-06 largest correction to disp= 1.748933e-09 in node 1382 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00472087, limit = 0.001, normalization = 0.000183705, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.906195, limit = 0.001, normalization = 0.0835535, conv = false ---[precice]  iteration: 3 of 100, time-window: 3585, time: 0.0003584 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3585 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.584000e-04 actual step time=3.585000e-04 actual total time=3.585000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000289 time avg. forc= 0.000017 largest residual force= 0.000020 in node 1333 and dof 2 largest increment of disp= 1.303249e-06 largest correction to disp= 5.205304e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000289 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.303249e-06 largest correction to disp= 1.720717e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000525896, limit = 0.001, normalization = 0.000183684, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.214255, limit = 0.001, normalization = 0.0809654, conv = false ---[precice]  iteration: 4 of 100, time-window: 3585, time: 0.0003584 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3585 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.584000e-04 actual step time=3.585000e-04 actual total time=3.585000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000289 time avg. forc= 0.000017 largest residual force= 0.000020 in node 1333 and dof 2 largest increment of disp= 1.303249e-06 largest correction to disp= 5.184796e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000289 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.303249e-06 largest correction to disp= 1.720095e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00011691, limit = 0.001, normalization = 0.000183679, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00475087, limit = 0.001, normalization = 0.0811047, conv = false ---[precice]  iteration: 5 of 100, time-window: 3585, time: 0.0003584 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3585 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.584000e-04 actual step time=3.585000e-04 actual total time=3.585000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000290 time avg. forc= 0.000017 largest residual force= 0.001587 in node 345 and dof 2 largest increment of disp= 1.303249e-06 largest correction to disp= 5.185947e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000289 time avg. forc= 0.000017 largest residual force= 0.000000 in node 518 and dof 2 largest increment of disp= 1.303249e-06 largest correction to disp= 7.913990e-08 in node 497 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.62488e-05, limit = 0.001, normalization = 0.000183678, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0197337, limit = 0.001, normalization = 0.0812674, conv = false ---[precice]  iteration: 6 of 100, time-window: 3585, time: 0.0003584 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3585 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.584000e-04 actual step time=3.585000e-04 actual total time=3.585000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000289 time avg. forc= 0.000017 largest residual force= 0.000020 in node 1333 and dof 2 largest increment of disp= 1.303249e-06 largest correction to disp= 5.186523e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000289 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.303249e-06 largest correction to disp= 1.720102e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 8.89092e-06, limit = 0.001, normalization = 0.000183679, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00351097, limit = 0.001, normalization = 0.0812174, conv = false ---[precice]  iteration: 7 of 100, time-window: 3585, time: 0.0003584 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3585 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.584000e-04 actual step time=3.585000e-04 actual total time=3.585000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000289 time avg. forc= 0.000017 largest residual force= 0.000020 in node 1333 and dof 2 largest increment of disp= 1.303249e-06 largest correction to disp= 5.186759e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000289 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.303249e-06 largest correction to disp= 1.720087e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.36864e-06, limit = 0.001, normalization = 0.000183679, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000383209, limit = 0.001, normalization = 0.0812366, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3586, time: 0.0003585 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3586 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.585000e-04 actual step time=3.586000e-04 actual total time=3.586000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000192 time avg. forc= 0.000017 largest residual force= 0.000015 in node 1487 and dof 2 largest increment of disp= 2.611078e-06 largest correction to disp= 1.998640e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000192 time avg. forc= 0.000017 largest residual force= 0.000000 in node 762 and dof 2 largest increment of disp= 2.611078e-06 largest correction to disp= 8.566506e-10 in node 970 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0390899, limit = 0.001, normalization = 0.000183757, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.04718, limit = 0.001, normalization = 0.531964, conv = false ---[precice]  iteration: 2 of 100, time-window: 3586, time: 0.0003585 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3586 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.585000e-04 actual step time=3.586000e-04 actual total time=3.586000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000189 time avg. forc= 0.000017 largest residual force= 0.000008 in node 762 and dof 2 largest increment of disp= 2.611078e-06 largest correction to disp= 6.690791e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000189 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 2.611078e-06 largest correction to disp= 9.848752e-10 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00490827, limit = 0.001, normalization = 0.00018383, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.606655, limit = 0.001, normalization = 0.29385, conv = false ---[precice]  iteration: 3 of 100, time-window: 3586, time: 0.0003585 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3586 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.585000e-04 actual step time=3.586000e-04 actual total time=3.586000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000188 time avg. forc= 0.000017 largest residual force= 0.000008 in node 762 and dof 2 largest increment of disp= 2.611078e-06 largest correction to disp= 6.556998e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000188 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 2.611078e-06 largest correction to disp= 8.609992e-10 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00065762, limit = 0.001, normalization = 0.000183883, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0816212, limit = 0.001, normalization = 0.293598, conv = false ---[precice]  iteration: 4 of 100, time-window: 3586, time: 0.0003585 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3586 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.585000e-04 actual step time=3.586000e-04 actual total time=3.586000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000188 time avg. forc= 0.000017 largest residual force= 0.000008 in node 762 and dof 2 largest increment of disp= 2.611078e-06 largest correction to disp= 6.621587e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000188 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 2.611078e-06 largest correction to disp= 8.717935e-10 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000155836, limit = 0.001, normalization = 0.000183876, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0177694, limit = 0.001, normalization = 0.293449, conv = false ---[precice]  iteration: 5 of 100, time-window: 3586, time: 0.0003585 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3586 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.585000e-04 actual step time=3.586000e-04 actual total time=3.586000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000188 time avg. forc= 0.000017 largest residual force= 0.000008 in node 762 and dof 2 largest increment of disp= 2.611078e-06 largest correction to disp= 6.624297e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000188 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 2.611078e-06 largest correction to disp= 8.696654e-10 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.58301e-05, limit = 0.001, normalization = 0.000183877, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00775564, limit = 0.001, normalization = 0.293469, conv = false ---[precice]  iteration: 6 of 100, time-window: 3586, time: 0.0003585 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3586 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.585000e-04 actual step time=3.586000e-04 actual total time=3.586000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000188 time avg. forc= 0.000017 largest residual force= 0.000008 in node 762 and dof 2 largest increment of disp= 2.611078e-06 largest correction to disp= 6.623401e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000188 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 2.611078e-06 largest correction to disp= 8.684661e-10 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 8.6192e-06, limit = 0.001, normalization = 0.000183878, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000271792, limit = 0.001, normalization = 0.293471, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3587, time: 0.0003586 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3587 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.586000e-04 actual step time=3.587000e-04 actual total time=3.587000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000254 time avg. forc= 0.000017 largest residual force= 0.000014 in node 1333 and dof 2 largest increment of disp= 1.540401e-06 largest correction to disp= 1.021492e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000254 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.540401e-06 largest correction to disp= 1.420514e-09 in node 1099 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.027516, limit = 0.001, normalization = 0.000184068, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.23955, limit = 0.001, normalization = 0.491176, conv = false ---[precice]  iteration: 2 of 100, time-window: 3587, time: 0.0003586 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3587 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.586000e-04 actual step time=3.587000e-04 actual total time=3.587000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000252 time avg. forc= 0.000017 largest residual force= 0.000014 in node 1333 and dof 2 largest increment of disp= 1.540401e-06 largest correction to disp= 1.068684e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000252 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.540401e-06 largest correction to disp= 1.678402e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00261095, limit = 0.001, normalization = 0.000184031, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.48422, limit = 0.001, normalization = 0.215239, conv = false ---[precice]  iteration: 3 of 100, time-window: 3587, time: 0.0003586 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3587 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.586000e-04 actual step time=3.587000e-04 actual total time=3.587000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000252 time avg. forc= 0.000017 largest residual force= 0.000014 in node 1333 and dof 2 largest increment of disp= 1.540401e-06 largest correction to disp= 1.063588e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000252 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.540401e-06 largest correction to disp= 1.574604e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000391643, limit = 0.001, normalization = 0.000184055, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0870633, limit = 0.001, normalization = 0.214175, conv = false ---[precice]  iteration: 4 of 100, time-window: 3587, time: 0.0003586 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3587 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.586000e-04 actual step time=3.587000e-04 actual total time=3.587000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000252 time avg. forc= 0.000017 largest residual force= 0.000014 in node 1333 and dof 2 largest increment of disp= 1.540401e-06 largest correction to disp= 1.065901e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000252 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.540401e-06 largest correction to disp= 1.553822e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.11286e-05, limit = 0.001, normalization = 0.00018406, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00625455, limit = 0.001, normalization = 0.213909, conv = false ---[precice]  iteration: 5 of 100, time-window: 3587, time: 0.0003586 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3587 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.586000e-04 actual step time=3.587000e-04 actual total time=3.587000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000252 time avg. forc= 0.000017 largest residual force= 0.000014 in node 1333 and dof 2 largest increment of disp= 1.540401e-06 largest correction to disp= 1.066386e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000252 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.540401e-06 largest correction to disp= 1.556152e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.14106e-05, limit = 0.001, normalization = 0.00018406, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00191376, limit = 0.001, normalization = 0.213932, conv = false ---[precice]  iteration: 6 of 100, time-window: 3587, time: 0.0003586 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3587 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.586000e-04 actual step time=3.587000e-04 actual total time=3.587000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000252 time avg. forc= 0.000017 largest residual force= 0.000014 in node 1333 and dof 2 largest increment of disp= 1.540401e-06 largest correction to disp= 1.066465e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000252 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.540401e-06 largest correction to disp= 1.555956e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.6371e-06, limit = 0.001, normalization = 0.00018406, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000165303, limit = 0.001, normalization = 0.213936, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3588, time: 0.0003587 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3588 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.587000e-04 actual step time=3.588000e-04 actual total time=3.588000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000289 time avg. forc= 0.000017 largest residual force= 0.000016 in node 1128 and dof 2 largest increment of disp= 2.153939e-06 largest correction to disp= 1.794242e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000289 time avg. forc= 0.000017 largest residual force= 0.000014 in node 1547 and dof 2 largest increment of disp= 2.153939e-06 largest correction to disp= 1.574440e-09 in node 1352 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000289 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1463 and dof 2 largest increment of disp= 2.153939e-06 largest correction to disp= 3.700434e-10 in node 1441 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0371034, limit = 0.001, normalization = 0.000184031, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.23671, limit = 0.001, normalization = 0.559186, conv = false ---[precice]  iteration: 2 of 100, time-window: 3588, time: 0.0003587 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3588 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.587000e-04 actual step time=3.588000e-04 actual total time=3.588000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000278 time avg. forc= 0.000017 largest residual force= 0.000017 in node 1128 and dof 2 largest increment of disp= 2.153939e-06 largest correction to disp= 4.961262e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000278 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 2.153939e-06 largest correction to disp= 1.875922e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00323007, limit = 0.001, normalization = 0.000183961, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0574121, limit = 0.001, normalization = 0.187047, conv = false ---[precice]  iteration: 3 of 100, time-window: 3588, time: 0.0003587 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3588 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.587000e-04 actual step time=3.588000e-04 actual total time=3.588000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000278 time avg. forc= 0.000017 largest residual force= 0.000017 in node 1128 and dof 2 largest increment of disp= 2.153939e-06 largest correction to disp= 5.133234e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000278 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 2.153939e-06 largest correction to disp= 1.843140e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000440749, limit = 0.001, normalization = 0.000183967, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0903457, limit = 0.001, normalization = 0.186779, conv = false ---[precice]  iteration: 4 of 100, time-window: 3588, time: 0.0003587 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3588 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.587000e-04 actual step time=3.588000e-04 actual total time=3.588000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000278 time avg. forc= 0.000017 largest residual force= 0.000017 in node 1128 and dof 2 largest increment of disp= 2.153939e-06 largest correction to disp= 5.147115e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000278 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 2.153939e-06 largest correction to disp= 1.861594e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000107705, limit = 0.001, normalization = 0.00018396, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00277312, limit = 0.001, normalization = 0.186272, conv = false ---[precice]  iteration: 5 of 100, time-window: 3588, time: 0.0003587 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3588 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.587000e-04 actual step time=3.588000e-04 actual total time=3.588000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000278 time avg. forc= 0.000017 largest residual force= 0.000017 in node 1128 and dof 2 largest increment of disp= 2.153939e-06 largest correction to disp= 5.150360e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000278 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 2.153939e-06 largest correction to disp= 1.862380e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.84098e-05, limit = 0.001, normalization = 0.000183959, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00509416, limit = 0.001, normalization = 0.186263, conv = false ---[precice]  iteration: 6 of 100, time-window: 3588, time: 0.0003587 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3588 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.587000e-04 actual step time=3.588000e-04 actual total time=3.588000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000278 time avg. forc= 0.000017 largest residual force= 0.000017 in node 1128 and dof 2 largest increment of disp= 2.153939e-06 largest correction to disp= 5.149227e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000278 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 2.153939e-06 largest correction to disp= 1.862559e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.06379e-06, limit = 0.001, normalization = 0.000183959, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00173098, limit = 0.001, normalization = 0.186265, conv = false ---[precice]  iteration: 7 of 100, time-window: 3588, time: 0.0003587 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3588 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.587000e-04 actual step time=3.588000e-04 actual total time=3.588000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000278 time avg. forc= 0.000017 largest residual force= 0.000017 in node 1128 and dof 2 largest increment of disp= 2.153939e-06 largest correction to disp= 5.148764e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000278 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 2.153939e-06 largest correction to disp= 1.862790e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.50371e-07, limit = 0.001, normalization = 0.000183959, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 3.37619e-05, limit = 0.001, normalization = 0.186265, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3589, time: 0.0003588 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3589 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.588000e-04 actual step time=3.589000e-04 actual total time=3.589000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000181 time avg. forc= 0.000017 largest residual force= 0.000016 in node 1384 and dof 2 largest increment of disp= 2.726232e-06 largest correction to disp= 1.886021e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000181 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.726232e-06 largest correction to disp= 1.110144e-09 in node 1594 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0362855, limit = 0.001, normalization = 0.000184008, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.01956, limit = 0.001, normalization = 0.503048, conv = false ---[precice]  iteration: 2 of 100, time-window: 3589, time: 0.0003588 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3589 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.588000e-04 actual step time=3.589000e-04 actual total time=3.589000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000185 time avg. forc= 0.000017 largest residual force= 0.000010 in node 1699 and dof 2 largest increment of disp= 2.726232e-06 largest correction to disp= 1.066990e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000185 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 2.726232e-06 largest correction to disp= 8.668542e-10 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00284947, limit = 0.001, normalization = 0.000184136, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.498872, limit = 0.001, normalization = 0.321635, conv = false ---[precice]  iteration: 3 of 100, time-window: 3589, time: 0.0003588 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3589 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.588000e-04 actual step time=3.589000e-04 actual total time=3.589000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000184 time avg. forc= 0.000017 largest residual force= 0.000010 in node 1699 and dof 2 largest increment of disp= 2.726232e-06 largest correction to disp= 1.085815e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000184 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 2.726232e-06 largest correction to disp= 7.445908e-10 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000584583, limit = 0.001, normalization = 0.00018416, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.131146, limit = 0.001, normalization = 0.321508, conv = false ---[precice]  iteration: 4 of 100, time-window: 3589, time: 0.0003588 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3589 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.588000e-04 actual step time=3.589000e-04 actual total time=3.589000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000184 time avg. forc= 0.000017 largest residual force= 0.000010 in node 1594 and dof 2 largest increment of disp= 2.726232e-06 largest correction to disp= 1.086945e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000184 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.726232e-06 largest correction to disp= 8.137238e-10 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000199985, limit = 0.001, normalization = 0.000184176, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0335509, limit = 0.001, normalization = 0.321826, conv = false ---[precice]  iteration: 5 of 100, time-window: 3589, time: 0.0003588 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3589 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.588000e-04 actual step time=3.589000e-04 actual total time=3.589000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000184 time avg. forc= 0.000017 largest residual force= 0.000010 in node 1594 and dof 2 largest increment of disp= 2.726232e-06 largest correction to disp= 1.085536e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000184 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.726232e-06 largest correction to disp= 7.975972e-10 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.6361e-05, limit = 0.001, normalization = 0.000184173, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00728301, limit = 0.001, normalization = 0.321717, conv = false ---[precice]  iteration: 6 of 100, time-window: 3589, time: 0.0003588 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3589 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.588000e-04 actual step time=3.589000e-04 actual total time=3.589000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000184 time avg. forc= 0.000017 largest residual force= 0.000010 in node 1594 and dof 2 largest increment of disp= 2.726232e-06 largest correction to disp= 1.085288e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000184 time avg. forc= 0.000017 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.726232e-06 largest correction to disp= 7.952286e-10 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 6.32281e-06, limit = 0.001, normalization = 0.000184173, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000242843, limit = 0.001, normalization = 0.321742, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3590, time: 0.0003589 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3590 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.589000e-04 actual step time=3.590000e-04 actual total time=3.590000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000321 time avg. forc= 0.000018 largest residual force= 0.000650 in node 1589 and dof 2 largest increment of disp= 1.392061e-06 largest correction to disp= 7.639845e-07 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000321 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1483 and dof 2 largest increment of disp= 1.392061e-06 largest correction to disp= 8.138827e-08 in node 1589 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.030062, limit = 0.001, normalization = 0.000184102, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.35087, limit = 0.001, normalization = 0.526542, conv = false ---[precice]  iteration: 2 of 100, time-window: 3590, time: 0.0003589 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3590 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.589000e-04 actual step time=3.590000e-04 actual total time=3.590000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000313 time avg. forc= 0.000018 largest residual force= 0.000024 in node 1333 and dof 2 largest increment of disp= 1.392061e-06 largest correction to disp= 5.762089e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000313 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.392061e-06 largest correction to disp= 2.007742e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00370333, limit = 0.001, normalization = 0.00018394, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.227311, limit = 0.001, normalization = 0.127995, conv = false ---[precice]  iteration: 3 of 100, time-window: 3590, time: 0.0003589 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3590 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.589000e-04 actual step time=3.590000e-04 actual total time=3.590000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000313 time avg. forc= 0.000018 largest residual force= 0.000024 in node 1333 and dof 2 largest increment of disp= 1.392061e-06 largest correction to disp= 5.864149e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000313 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.392061e-06 largest correction to disp= 2.010979e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000488128, limit = 0.001, normalization = 0.000183956, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.158711, limit = 0.001, normalization = 0.0894435, conv = false ---[precice]  iteration: 4 of 100, time-window: 3590, time: 0.0003589 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3590 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.589000e-04 actual step time=3.590000e-04 actual total time=3.590000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000313 time avg. forc= 0.000018 largest residual force= 0.000024 in node 1333 and dof 2 largest increment of disp= 1.392061e-06 largest correction to disp= 5.802593e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000313 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.392061e-06 largest correction to disp= 2.009588e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000115959, limit = 0.001, normalization = 0.000183953, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0168629, limit = 0.001, normalization = 0.0891343, conv = false ---[precice]  iteration: 5 of 100, time-window: 3590, time: 0.0003589 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3590 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.589000e-04 actual step time=3.590000e-04 actual total time=3.590000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000313 time avg. forc= 0.000018 largest residual force= 0.000024 in node 1333 and dof 2 largest increment of disp= 1.392061e-06 largest correction to disp= 5.806497e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000313 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.392061e-06 largest correction to disp= 2.009545e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.85061e-05, limit = 0.001, normalization = 0.000183953, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0147086, limit = 0.001, normalization = 0.0890436, conv = false ---[precice]  iteration: 6 of 100, time-window: 3590, time: 0.0003589 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3590 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.589000e-04 actual step time=3.590000e-04 actual total time=3.590000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000313 time avg. forc= 0.000018 largest residual force= 0.000024 in node 1333 and dof 2 largest increment of disp= 1.392061e-06 largest correction to disp= 5.807159e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000313 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.392061e-06 largest correction to disp= 2.009560e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 9.18641e-06, limit = 0.001, normalization = 0.000183953, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00553551, limit = 0.001, normalization = 0.0890718, conv = false ---[precice]  iteration: 7 of 100, time-window: 3590, time: 0.0003589 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3590 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.589000e-04 actual step time=3.590000e-04 actual total time=3.590000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000313 time avg. forc= 0.000018 largest residual force= 0.000024 in node 1333 and dof 2 largest increment of disp= 1.392061e-06 largest correction to disp= 5.807104e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000313 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.392061e-06 largest correction to disp= 2.009573e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.21876e-06, limit = 0.001, normalization = 0.000183953, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000742764, limit = 0.001, normalization = 0.0890655, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3591, time: 0.000359 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3591 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.590000e-04 actual step time=3.591000e-04 actual total time=3.591000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000210 time avg. forc= 0.000018 largest residual force= 0.000018 in node 1487 and dof 2 largest increment of disp= 2.825667e-06 largest correction to disp= 2.171532e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000210 time avg. forc= 0.000018 largest residual force= 0.000000 in node 762 and dof 2 largest increment of disp= 2.825667e-06 largest correction to disp= 1.054608e-09 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0423612, limit = 0.001, normalization = 0.000184029, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.05451, limit = 0.001, normalization = 0.539308, conv = false ---[precice]  iteration: 2 of 100, time-window: 3591, time: 0.000359 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3591 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.590000e-04 actual step time=3.591000e-04 actual total time=3.591000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000206 time avg. forc= 0.000018 largest residual force= 0.000009 in node 762 and dof 2 largest increment of disp= 2.825667e-06 largest correction to disp= 7.095318e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000206 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 2.825667e-06 largest correction to disp= 1.117335e-09 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00369263, limit = 0.001, normalization = 0.000184142, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.145346, limit = 0.001, normalization = 0.319599, conv = false ---[precice]  iteration: 3 of 100, time-window: 3591, time: 0.000359 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3591 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.590000e-04 actual step time=3.591000e-04 actual total time=3.591000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000206 time avg. forc= 0.000018 largest residual force= 0.000009 in node 762 and dof 2 largest increment of disp= 2.825667e-06 largest correction to disp= 7.181061e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000206 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 2.825667e-06 largest correction to disp= 1.063797e-09 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000596795, limit = 0.001, normalization = 0.00018416, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0839238, limit = 0.001, normalization = 0.316418, conv = false ---[precice]  iteration: 4 of 100, time-window: 3591, time: 0.000359 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3591 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.590000e-04 actual step time=3.591000e-04 actual total time=3.591000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000205 time avg. forc= 0.000018 largest residual force= 0.000009 in node 762 and dof 2 largest increment of disp= 2.825667e-06 largest correction to disp= 7.133440e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000205 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 2.825667e-06 largest correction to disp= 1.051759e-09 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000195258, limit = 0.001, normalization = 0.000184166, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0108074, limit = 0.001, normalization = 0.316221, conv = false ---[precice]  iteration: 5 of 100, time-window: 3591, time: 0.000359 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3591 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.590000e-04 actual step time=3.591000e-04 actual total time=3.591000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000205 time avg. forc= 0.000018 largest residual force= 0.000009 in node 762 and dof 2 largest increment of disp= 2.825667e-06 largest correction to disp= 7.138584e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000205 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 2.825667e-06 largest correction to disp= 1.053198e-09 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.69736e-05, limit = 0.001, normalization = 0.000184166, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000179759, limit = 0.001, normalization = 0.316226, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3592, time: 0.0003591 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3592 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.591000e-04 actual step time=3.592000e-04 actual total time=3.592000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000272 time avg. forc= 0.000018 largest residual force= 0.000015 in node 1333 and dof 2 largest increment of disp= 1.699652e-06 largest correction to disp= 1.134974e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000272 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.699652e-06 largest correction to disp= 1.660908e-09 in node 1099 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0299449, limit = 0.001, normalization = 0.000184374, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.27299, limit = 0.001, normalization = 0.489363, conv = false ---[precice]  iteration: 2 of 100, time-window: 3592, time: 0.0003591 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3592 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.591000e-04 actual step time=3.592000e-04 actual total time=3.592000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000270 time avg. forc= 0.000018 largest residual force= 0.000016 in node 1333 and dof 2 largest increment of disp= 1.699652e-06 largest correction to disp= 1.147467e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000270 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.699652e-06 largest correction to disp= 1.774192e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00374591, limit = 0.001, normalization = 0.000184377, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.207192, limit = 0.001, normalization = 0.23725, conv = false ---[precice]  iteration: 3 of 100, time-window: 3592, time: 0.0003591 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3592 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.591000e-04 actual step time=3.592000e-04 actual total time=3.592000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000270 time avg. forc= 0.000018 largest residual force= 0.000016 in node 1333 and dof 2 largest increment of disp= 1.699652e-06 largest correction to disp= 1.160849e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000270 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.699652e-06 largest correction to disp= 1.747644e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000312229, limit = 0.001, normalization = 0.000184376, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0863572, limit = 0.001, normalization = 0.235408, conv = false ---[precice]  iteration: 4 of 100, time-window: 3592, time: 0.0003591 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3592 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.591000e-04 actual step time=3.592000e-04 actual total time=3.592000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000270 time avg. forc= 0.000018 largest residual force= 0.001539 in node 861 and dof 2 largest increment of disp= 1.699652e-06 largest correction to disp= 1.179083e-06 in node 861 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000270 time avg. forc= 0.000018 largest residual force= 0.000016 in node 966 and dof 2 largest increment of disp= 1.699652e-06 largest correction to disp= 1.028582e-06 in node 935 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000270 time avg. forc= 0.000018 largest residual force= 0.000000 in node 861 and dof 2 largest increment of disp= 1.699652e-06 largest correction to disp= 5.984074e-10 in node 861 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000124059, limit = 0.001, normalization = 0.000184371, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00506313, limit = 0.001, normalization = 0.235434, conv = false ---[precice]  iteration: 5 of 100, time-window: 3592, time: 0.0003591 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3592 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.591000e-04 actual step time=3.592000e-04 actual total time=3.592000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000270 time avg. forc= 0.000018 largest residual force= 0.000016 in node 1333 and dof 2 largest increment of disp= 1.699652e-06 largest correction to disp= 1.159119e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000270 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.699652e-06 largest correction to disp= 1.769951e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.07503e-05, limit = 0.001, normalization = 0.000184371, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00279838, limit = 0.001, normalization = 0.23549, conv = false ---[precice]  iteration: 6 of 100, time-window: 3592, time: 0.0003591 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3592 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.591000e-04 actual step time=3.592000e-04 actual total time=3.592000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000270 time avg. forc= 0.000018 largest residual force= 0.000016 in node 1333 and dof 2 largest increment of disp= 1.699652e-06 largest correction to disp= 1.159149e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000270 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.699652e-06 largest correction to disp= 1.771092e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.79388e-06, limit = 0.001, normalization = 0.000184371, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 6.75466e-05, limit = 0.001, normalization = 0.235503, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3593, time: 0.0003592 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3593 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.592000e-04 actual step time=3.593000e-04 actual total time=3.593000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000314 time avg. forc= 0.000018 largest residual force= 0.000019 in node 1128 and dof 2 largest increment of disp= 2.319573e-06 largest correction to disp= 1.926790e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000314 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 2.319573e-06 largest correction to disp= 1.846104e-09 in node 1352 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0400065, limit = 0.001, normalization = 0.000184327, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.26766, limit = 0.001, normalization = 0.569283, conv = false ---[precice]  iteration: 2 of 100, time-window: 3593, time: 0.0003592 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3593 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.592000e-04 actual step time=3.593000e-04 actual total time=3.593000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000303 time avg. forc= 0.000018 largest residual force= 0.000020 in node 1128 and dof 2 largest increment of disp= 2.319573e-06 largest correction to disp= 5.414475e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000303 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 2.319573e-06 largest correction to disp= 2.214064e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00293363, limit = 0.001, normalization = 0.000184244, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0401699, limit = 0.001, normalization = 0.199289, conv = false ---[precice]  iteration: 3 of 100, time-window: 3593, time: 0.0003592 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3593 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.592000e-04 actual step time=3.593000e-04 actual total time=3.593000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000303 time avg. forc= 0.000018 largest residual force= 0.000020 in node 1128 and dof 2 largest increment of disp= 2.319573e-06 largest correction to disp= 5.499152e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000303 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 2.319573e-06 largest correction to disp= 2.217075e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000492737, limit = 0.001, normalization = 0.000184238, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0444332, limit = 0.001, normalization = 0.198062, conv = false ---[precice]  iteration: 4 of 100, time-window: 3593, time: 0.0003592 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3593 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.592000e-04 actual step time=3.593000e-04 actual total time=3.593000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000303 time avg. forc= 0.000018 largest residual force= 0.000020 in node 1128 and dof 2 largest increment of disp= 2.319573e-06 largest correction to disp= 5.519781e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000303 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 2.319573e-06 largest correction to disp= 2.216968e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.85752e-05, limit = 0.001, normalization = 0.000184238, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000813385, limit = 0.001, normalization = 0.19792, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3594, time: 0.0003593 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3594 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.593000e-04 actual step time=3.594000e-04 actual total time=3.594000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000194 time avg. forc= 0.000018 largest residual force= 0.000019 in node 1384 and dof 2 largest increment of disp= 2.980977e-06 largest correction to disp= 2.063989e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000194 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.980977e-06 largest correction to disp= 1.326314e-09 in node 1594 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0395093, limit = 0.001, normalization = 0.000184294, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.01977, limit = 0.001, normalization = 0.502657, conv = false ---[precice]  iteration: 2 of 100, time-window: 3594, time: 0.0003593 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3594 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.593000e-04 actual step time=3.594000e-04 actual total time=3.594000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000198 time avg. forc= 0.000018 largest residual force= 0.000012 in node 1594 and dof 2 largest increment of disp= 2.980977e-06 largest correction to disp= 1.159726e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000198 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.980977e-06 largest correction to disp= 1.029371e-09 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00423363, limit = 0.001, normalization = 0.000184506, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0555173, limit = 0.001, normalization = 0.35416, conv = false ---[precice]  iteration: 3 of 100, time-window: 3594, time: 0.0003593 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3594 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.593000e-04 actual step time=3.594000e-04 actual total time=3.594000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000197 time avg. forc= 0.000018 largest residual force= 0.000012 in node 1594 and dof 2 largest increment of disp= 2.980977e-06 largest correction to disp= 1.174134e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000197 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.980977e-06 largest correction to disp= 9.217607e-10 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00126129, limit = 0.001, normalization = 0.000184481, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0387618, limit = 0.001, normalization = 0.349444, conv = false ---[precice]  iteration: 4 of 100, time-window: 3594, time: 0.0003593 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3594 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.593000e-04 actual step time=3.594000e-04 actual total time=3.594000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000197 time avg. forc= 0.000018 largest residual force= 0.000012 in node 1594 and dof 2 largest increment of disp= 2.980977e-06 largest correction to disp= 1.177865e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000197 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.980977e-06 largest correction to disp= 9.713703e-10 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000284953, limit = 0.001, normalization = 0.000184488, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00488921, limit = 0.001, normalization = 0.349814, conv = false ---[precice]  iteration: 5 of 100, time-window: 3594, time: 0.0003593 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3594 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.593000e-04 actual step time=3.594000e-04 actual total time=3.594000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000197 time avg. forc= 0.000018 largest residual force= 0.000012 in node 1594 and dof 2 largest increment of disp= 2.980977e-06 largest correction to disp= 1.175855e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000197 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.980977e-06 largest correction to disp= 9.694239e-10 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.6971e-05, limit = 0.001, normalization = 0.000184488, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0012292, limit = 0.001, normalization = 0.349779, conv = false ---[precice]  iteration: 6 of 100, time-window: 3594, time: 0.0003593 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3594 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.593000e-04 actual step time=3.594000e-04 actual total time=3.594000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000197 time avg. forc= 0.000018 largest residual force= 0.000012 in node 1594 and dof 2 largest increment of disp= 2.980977e-06 largest correction to disp= 1.175645e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000197 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 2.980977e-06 largest correction to disp= 9.712109e-10 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.97042e-05, limit = 0.001, normalization = 0.000184489, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000915017, limit = 0.001, normalization = 0.349835, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3595, time: 0.0003594 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3595 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.594000e-04 actual step time=3.595000e-04 actual total time=3.595000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000347 time avg. forc= 0.000018 largest residual force= 0.000031 in node 1280 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 7.966875e-07 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000347 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 2.411899e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0323889, limit = 0.001, normalization = 0.000184405, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.39466, limit = 0.001, normalization = 0.533159, conv = false ---[precice]  iteration: 2 of 100, time-window: 3595, time: 0.0003594 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3595 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.594000e-04 actual step time=3.595000e-04 actual total time=3.595000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000339 time avg. forc= 0.000018 largest residual force= 0.000028 in node 1333 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 6.147285e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000339 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 2.399584e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00913408, limit = 0.001, normalization = 0.000184262, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.278998, limit = 0.001, normalization = 0.122302, conv = false ---[precice]  iteration: 3 of 100, time-window: 3595, time: 0.0003594 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3595 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.594000e-04 actual step time=3.595000e-04 actual total time=3.595000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000338 time avg. forc= 0.000018 largest residual force= 0.000028 in node 1333 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 6.437339e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000338 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 2.394339e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00121552, limit = 0.001, normalization = 0.00018423, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.153714, limit = 0.001, normalization = 0.101115, conv = false ---[precice]  iteration: 4 of 100, time-window: 3595, time: 0.0003594 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3595 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.594000e-04 actual step time=3.595000e-04 actual total time=3.595000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000338 time avg. forc= 0.000018 largest residual force= 0.000028 in node 1333 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 6.427885e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000338 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 2.395329e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000301884, limit = 0.001, normalization = 0.00018423, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0196593, limit = 0.001, normalization = 0.0979737, conv = false ---[precice]  iteration: 5 of 100, time-window: 3595, time: 0.0003594 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3595 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.594000e-04 actual step time=3.595000e-04 actual total time=3.595000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000338 time avg. forc= 0.000018 largest residual force= 0.000028 in node 1333 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 6.413100e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000338 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 2.395139e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.01593e-05, limit = 0.001, normalization = 0.00018423, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.003718, limit = 0.001, normalization = 0.0982051, conv = false ---[precice]  iteration: 6 of 100, time-window: 3595, time: 0.0003594 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3595 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.594000e-04 actual step time=3.595000e-04 actual total time=3.595000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000338 time avg. forc= 0.000018 largest residual force= 0.000028 in node 1333 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 6.410146e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000338 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 2.395258e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.6818e-05, limit = 0.001, normalization = 0.000184231, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00322735, limit = 0.001, normalization = 0.098049, conv = false ---[precice]  iteration: 7 of 100, time-window: 3595, time: 0.0003594 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3595 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.594000e-04 actual step time=3.595000e-04 actual total time=3.595000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000338 time avg. forc= 0.000018 largest residual force= 0.000028 in node 1333 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 6.411755e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000338 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 2.395245e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.45964e-06, limit = 0.001, normalization = 0.000184231, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00197123, limit = 0.001, normalization = 0.0980543, conv = false ---[precice]  iteration: 8 of 100, time-window: 3595, time: 0.0003594 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3595 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.594000e-04 actual step time=3.595000e-04 actual total time=3.595000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000338 time avg. forc= 0.000018 largest residual force= 0.000028 in node 1333 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 6.411858e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000338 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.493636e-06 largest correction to disp= 2.395250e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.27728e-06, limit = 0.001, normalization = 0.000184231, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 9.9644e-05, limit = 0.001, normalization = 0.098054, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3596, time: 0.0003595 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3596 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.595000e-04 actual step time=3.596000e-04 actual total time=3.596000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000230 time avg. forc= 0.000018 largest residual force= 0.000021 in node 1487 and dof 2 largest increment of disp= 3.048397e-06 largest correction to disp= 2.352772e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000230 time avg. forc= 0.000018 largest residual force= 0.000000 in node 762 and dof 2 largest increment of disp= 3.048397e-06 largest correction to disp= 1.242658e-09 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0458954, limit = 0.001, normalization = 0.000184302, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.06546, limit = 0.001, normalization = 0.548573, conv = false ---[precice]  iteration: 2 of 100, time-window: 3596, time: 0.0003595 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3596 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.595000e-04 actual step time=3.596000e-04 actual total time=3.596000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000225 time avg. forc= 0.000018 largest residual force= 0.000011 in node 762 and dof 2 largest increment of disp= 3.048397e-06 largest correction to disp= 7.670395e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000225 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.048397e-06 largest correction to disp= 1.404730e-09 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00477583, limit = 0.001, normalization = 0.000184409, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.295381, limit = 0.001, normalization = 0.350805, conv = false ---[precice]  iteration: 3 of 100, time-window: 3596, time: 0.0003595 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3596 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.595000e-04 actual step time=3.596000e-04 actual total time=3.596000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000225 time avg. forc= 0.000018 largest residual force= 0.000011 in node 762 and dof 2 largest increment of disp= 3.048397e-06 largest correction to disp= 7.638024e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000225 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.048397e-06 largest correction to disp= 1.245880e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000770295, limit = 0.001, normalization = 0.000184463, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0572781, limit = 0.001, normalization = 0.340872, conv = false ---[precice]  iteration: 4 of 100, time-window: 3596, time: 0.0003595 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3596 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.595000e-04 actual step time=3.596000e-04 actual total time=3.596000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000225 time avg. forc= 0.000018 largest residual force= 0.000011 in node 762 and dof 2 largest increment of disp= 3.048397e-06 largest correction to disp= 7.627749e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000225 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.048397e-06 largest correction to disp= 1.261499e-09 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000125687, limit = 0.001, normalization = 0.000184457, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00363568, limit = 0.001, normalization = 0.340689, conv = false ---[precice]  iteration: 5 of 100, time-window: 3596, time: 0.0003595 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3596 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.595000e-04 actual step time=3.596000e-04 actual total time=3.596000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000225 time avg. forc= 0.000018 largest residual force= 0.000011 in node 762 and dof 2 largest increment of disp= 3.048397e-06 largest correction to disp= 7.626000e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000225 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.048397e-06 largest correction to disp= 1.261665e-09 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.49694e-05, limit = 0.001, normalization = 0.000184457, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00392384, limit = 0.001, normalization = 0.340696, conv = false ---[precice]  iteration: 6 of 100, time-window: 3596, time: 0.0003595 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3596 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.595000e-04 actual step time=3.596000e-04 actual total time=3.596000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000225 time avg. forc= 0.000018 largest residual force= 0.000011 in node 762 and dof 2 largest increment of disp= 3.048397e-06 largest correction to disp= 7.623233e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000225 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.048397e-06 largest correction to disp= 1.263387e-09 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.87801e-06, limit = 0.001, normalization = 0.000184457, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000738079, limit = 0.001, normalization = 0.340694, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3597, time: 0.0003596 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3597 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.596000e-04 actual step time=3.597000e-04 actual total time=3.597000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000292 time avg. forc= 0.000018 largest residual force= 0.000018 in node 1333 and dof 2 largest increment of disp= 1.893895e-06 largest correction to disp= 1.269733e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000292 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.893895e-06 largest correction to disp= 1.931274e-09 in node 1099 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0326002, limit = 0.001, normalization = 0.000184686, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.30679, limit = 0.001, normalization = 0.492405, conv = false ---[precice]  iteration: 2 of 100, time-window: 3597, time: 0.0003596 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3597 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.596000e-04 actual step time=3.597000e-04 actual total time=3.597000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000290 time avg. forc= 0.000018 largest residual force= 0.000018 in node 1333 and dof 2 largest increment of disp= 1.893895e-06 largest correction to disp= 1.281375e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000290 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.893895e-06 largest correction to disp= 2.124591e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00361631, limit = 0.001, normalization = 0.000184681, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.221492, limit = 0.001, normalization = 0.260418, conv = false ---[precice]  iteration: 3 of 100, time-window: 3597, time: 0.0003596 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3597 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.596000e-04 actual step time=3.597000e-04 actual total time=3.597000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000290 time avg. forc= 0.000018 largest residual force= 0.000018 in node 1333 and dof 2 largest increment of disp= 1.893895e-06 largest correction to disp= 1.266158e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000290 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.893895e-06 largest correction to disp= 2.079300e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000896204, limit = 0.001, normalization = 0.00018469, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0351967, limit = 0.001, normalization = 0.259102, conv = false ---[precice]  iteration: 4 of 100, time-window: 3597, time: 0.0003596 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3597 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.596000e-04 actual step time=3.597000e-04 actual total time=3.597000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000290 time avg. forc= 0.000018 largest residual force= 0.000018 in node 1333 and dof 2 largest increment of disp= 1.893895e-06 largest correction to disp= 1.269142e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000290 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.893895e-06 largest correction to disp= 2.082086e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000183189, limit = 0.001, normalization = 0.00018469, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0149433, limit = 0.001, normalization = 0.259046, conv = false ---[precice]  iteration: 5 of 100, time-window: 3597, time: 0.0003596 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3597 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.596000e-04 actual step time=3.597000e-04 actual total time=3.597000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000290 time avg. forc= 0.000018 largest residual force= 0.000018 in node 1333 and dof 2 largest increment of disp= 1.893895e-06 largest correction to disp= 1.269429e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000290 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.893895e-06 largest correction to disp= 2.080532e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.4899e-05, limit = 0.001, normalization = 0.00018469, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00317865, limit = 0.001, normalization = 0.259114, conv = false ---[precice]  iteration: 6 of 100, time-window: 3597, time: 0.0003596 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3597 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.596000e-04 actual step time=3.597000e-04 actual total time=3.597000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000290 time avg. forc= 0.000018 largest residual force= 0.000018 in node 1333 and dof 2 largest increment of disp= 1.893895e-06 largest correction to disp= 1.269774e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000290 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.893895e-06 largest correction to disp= 2.080092e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 9.01433e-06, limit = 0.001, normalization = 0.00018469, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000556364, limit = 0.001, normalization = 0.259132, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3598, time: 0.0003597 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3598 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.597000e-04 actual step time=3.598000e-04 actual total time=3.598000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000342 time avg. forc= 0.000018 largest residual force= 0.000025 in node 1980 and dof 1 largest increment of disp= 2.503539e-06 largest correction to disp= 2.074839e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000342 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1980 and dof 2 largest increment of disp= 2.503539e-06 largest correction to disp= 2.201471e-08 in node 1980 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.043131, limit = 0.001, normalization = 0.00018463, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.30015, limit = 0.001, normalization = 0.580399, conv = false ---[precice]  iteration: 2 of 100, time-window: 3598, time: 0.0003597 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3598 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.597000e-04 actual step time=3.598000e-04 actual total time=3.598000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000329 time avg. forc= 0.000018 largest residual force= 0.000326 in node 1126 and dof 1 largest increment of disp= 2.503539e-06 largest correction to disp= 5.827360e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000329 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1147 and dof 2 largest increment of disp= 2.503539e-06 largest correction to disp= 5.748389e-08 in node 1126 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00542609, limit = 0.001, normalization = 0.000184539, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.563608, limit = 0.001, normalization = 0.214886, conv = false ---[precice]  iteration: 3 of 100, time-window: 3598, time: 0.0003597 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3598 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.597000e-04 actual step time=3.598000e-04 actual total time=3.598000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000329 time avg. forc= 0.000018 largest residual force= 0.000024 in node 1128 and dof 2 largest increment of disp= 2.503539e-06 largest correction to disp= 5.977980e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000329 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 2.503539e-06 largest correction to disp= 2.631198e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000639162, limit = 0.001, normalization = 0.000184517, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.034282, limit = 0.001, normalization = 0.210282, conv = false ---[precice]  iteration: 4 of 100, time-window: 3598, time: 0.0003597 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3598 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.597000e-04 actual step time=3.598000e-04 actual total time=3.598000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000329 time avg. forc= 0.000018 largest residual force= 0.000024 in node 1128 and dof 2 largest increment of disp= 2.503539e-06 largest correction to disp= 5.978027e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000329 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 2.503539e-06 largest correction to disp= 2.630868e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00015153, limit = 0.001, normalization = 0.000184519, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00245665, limit = 0.001, normalization = 0.210252, conv = false ---[precice]  iteration: 5 of 100, time-window: 3598, time: 0.0003597 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3598 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.597000e-04 actual step time=3.598000e-04 actual total time=3.598000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000329 time avg. forc= 0.000018 largest residual force= 0.000024 in node 1128 and dof 2 largest increment of disp= 2.503539e-06 largest correction to disp= 5.980130e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000329 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 2.503539e-06 largest correction to disp= 2.628645e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.56125e-05, limit = 0.001, normalization = 0.000184519, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0124967, limit = 0.001, normalization = 0.210254, conv = false ---[precice]  iteration: 6 of 100, time-window: 3598, time: 0.0003597 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3598 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.597000e-04 actual step time=3.598000e-04 actual total time=3.598000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000329 time avg. forc= 0.000018 largest residual force= 0.000024 in node 1128 and dof 2 largest increment of disp= 2.503539e-06 largest correction to disp= 5.978664e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000329 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 2.503539e-06 largest correction to disp= 2.630228e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.65153e-05, limit = 0.001, normalization = 0.000184519, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00345225, limit = 0.001, normalization = 0.210255, conv = false ---[precice]  iteration: 7 of 100, time-window: 3598, time: 0.0003597 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3598 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.597000e-04 actual step time=3.598000e-04 actual total time=3.598000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000329 time avg. forc= 0.000018 largest residual force= 0.000024 in node 1128 and dof 2 largest increment of disp= 2.503539e-06 largest correction to disp= 5.978483e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000329 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 2.503539e-06 largest correction to disp= 2.630718e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.63252e-06, limit = 0.001, normalization = 0.000184519, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000404215, limit = 0.001, normalization = 0.210258, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3599, time: 0.0003598 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3599 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.598000e-04 actual step time=3.599000e-04 actual total time=3.599000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000208 time avg. forc= 0.000018 largest residual force= 0.000022 in node 1384 and dof 2 largest increment of disp= 3.246737e-06 largest correction to disp= 2.246728e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000208 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 3.246737e-06 largest correction to disp= 1.564720e-09 in node 1594 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0430208, limit = 0.001, normalization = 0.00018458, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.02371, limit = 0.001, normalization = 0.510081, conv = false ---[precice]  iteration: 2 of 100, time-window: 3599, time: 0.0003598 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3599 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.598000e-04 actual step time=3.599000e-04 actual total time=3.599000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000212 time avg. forc= 0.000018 largest residual force= 0.000014 in node 1594 and dof 2 largest increment of disp= 3.246737e-06 largest correction to disp= 1.241194e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000212 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 3.246737e-06 largest correction to disp= 1.248739e-09 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0024918, limit = 0.001, normalization = 0.000184839, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.206871, limit = 0.001, normalization = 0.380777, conv = false ---[precice]  iteration: 3 of 100, time-window: 3599, time: 0.0003598 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3599 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.598000e-04 actual step time=3.599000e-04 actual total time=3.599000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000212 time avg. forc= 0.000018 largest residual force= 0.000014 in node 1594 and dof 2 largest increment of disp= 3.246737e-06 largest correction to disp= 1.259697e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000212 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 3.246737e-06 largest correction to disp= 1.135861e-09 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000594029, limit = 0.001, normalization = 0.000184817, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0178211, limit = 0.001, normalization = 0.380675, conv = false ---[precice]  iteration: 4 of 100, time-window: 3599, time: 0.0003598 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3599 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.598000e-04 actual step time=3.599000e-04 actual total time=3.599000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000212 time avg. forc= 0.000018 largest residual force= 0.000014 in node 1594 and dof 2 largest increment of disp= 3.246737e-06 largest correction to disp= 1.262004e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000212 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 3.246737e-06 largest correction to disp= 1.120683e-09 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000112327, limit = 0.001, normalization = 0.000184814, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00080966, limit = 0.001, normalization = 0.380545, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3600, time: 0.0003599 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3600 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.599000e-04 actual step time=3.600000e-04 actual total time=3.600000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000375 time avg. forc= 0.000018 largest residual force= 0.000036 in node 1280 and dof 2 largest increment of disp= 1.596506e-06 largest correction to disp= 8.216820e-07 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000375 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.596506e-06 largest correction to disp= 2.775248e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.034907, limit = 0.001, normalization = 0.000184716, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.44389, limit = 0.001, normalization = 0.536781, conv = false ---[precice]  iteration: 2 of 100, time-window: 3600, time: 0.0003599 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3600 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.599000e-04 actual step time=3.600000e-04 actual total time=3.600000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000366 time avg. forc= 0.000018 largest residual force= 0.000034 in node 1333 and dof 2 largest increment of disp= 1.596506e-06 largest correction to disp= 7.020381e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000366 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.596506e-06 largest correction to disp= 2.758249e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00482285, limit = 0.001, normalization = 0.000184539, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.927109, limit = 0.001, normalization = 0.107984, conv = false ---[precice]  iteration: 3 of 100, time-window: 3600, time: 0.0003599 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3600 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.599000e-04 actual step time=3.600000e-04 actual total time=3.600000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000365 time avg. forc= 0.000018 largest residual force= 0.000034 in node 1333 and dof 2 largest increment of disp= 1.596506e-06 largest correction to disp= 7.132543e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000365 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.596506e-06 largest correction to disp= 2.755969e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00071693, limit = 0.001, normalization = 0.000184511, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.020888, limit = 0.001, normalization = 0.108908, conv = false ---[precice]  iteration: 4 of 100, time-window: 3600, time: 0.0003599 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3600 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.599000e-04 actual step time=3.600000e-04 actual total time=3.600000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000365 time avg. forc= 0.000018 largest residual force= 0.000034 in node 1333 and dof 2 largest increment of disp= 1.596506e-06 largest correction to disp= 7.165356e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000365 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.596506e-06 largest correction to disp= 2.755811e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000151007, limit = 0.001, normalization = 0.000184512, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0342525, limit = 0.001, normalization = 0.108592, conv = false ---[precice]  iteration: 5 of 100, time-window: 3600, time: 0.0003599 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3600 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.599000e-04 actual step time=3.600000e-04 actual total time=3.600000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000365 time avg. forc= 0.000018 largest residual force= 0.000034 in node 1333 and dof 2 largest increment of disp= 1.596506e-06 largest correction to disp= 7.160972e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000365 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.596506e-06 largest correction to disp= 2.755557e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.99816e-05, limit = 0.001, normalization = 0.000184511, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00229325, limit = 0.001, normalization = 0.10851, conv = false ---[precice]  iteration: 6 of 100, time-window: 3600, time: 0.0003599 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3600 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.599000e-04 actual step time=3.600000e-04 actual total time=3.600000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000365 time avg. forc= 0.000018 largest residual force= 0.000034 in node 1333 and dof 2 largest increment of disp= 1.596506e-06 largest correction to disp= 7.157545e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000365 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.596506e-06 largest correction to disp= 2.755609e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 9.11661e-06, limit = 0.001, normalization = 0.000184511, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00041941, limit = 0.001, normalization = 0.108508, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3601, time: 0.00036 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint initial energy (at start of step) = 0.000000e+00 since start of the step: external work = 4.417386e-07 work performed by the damping forces = 0.000000e+00 netto work = 4.417386e-07 actual energy: internal energy = 2.111093e-07 kinetic energy = 5.634105e-08 elastic contact energy = 0.000000e+00 energy lost due to friction = 0.000000e+00 total energy = 2.674504e-07 energy increase = 2.674504e-07 energy balance (absolute) = -1.742882e-07 energy balance (relative) = 53923.836554 % Using up to 28 cpu(s) for the stress calculation. Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3601 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.600000e-04 actual step time=3.601000e-04 actual total time=3.601000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000252 time avg. forc= 0.000018 largest residual force= 0.000024 in node 1487 and dof 2 largest increment of disp= 3.295770e-06 largest correction to disp= 2.556391e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000252 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.295770e-06 largest correction to disp= 1.477465e-09 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.049723, limit = 0.001, normalization = 0.000184575, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.08291, limit = 0.001, normalization = 0.560781, conv = false ---[precice]  iteration: 2 of 100, time-window: 3601, time: 0.00036 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3601 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.600000e-04 actual step time=3.601000e-04 actual total time=3.601000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000246 time avg. forc= 0.000018 largest residual force= 0.000013 in node 762 and dof 2 largest increment of disp= 3.295770e-06 largest correction to disp= 8.279429e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000246 time avg. forc= 0.000018 largest residual force= 0.000001 in node 862 and dof 2 largest increment of disp= 3.295770e-06 largest correction to disp= 1.743549e-09 in node 866 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000246 time avg. forc= 0.000018 largest residual force= 0.000000 in node 861 and dof 2 largest increment of disp= 3.295770e-06 largest correction to disp= 5.022701e-10 in node 862 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00668195, limit = 0.001, normalization = 0.000184739, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0443498, limit = 0.001, normalization = 0.367742, conv = false ---[precice]  iteration: 3 of 100, time-window: 3601, time: 0.00036 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3601 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.600000e-04 actual step time=3.601000e-04 actual total time=3.601000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000246 time avg. forc= 0.000018 largest residual force= 0.000013 in node 762 and dof 2 largest increment of disp= 3.295770e-06 largest correction to disp= 8.185988e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000246 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.295770e-06 largest correction to disp= 1.514404e-09 in node 866 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00151227, limit = 0.001, normalization = 0.000184748, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0205841, limit = 0.001, normalization = 0.367045, conv = false ---[precice]  iteration: 4 of 100, time-window: 3601, time: 0.00036 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3601 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.600000e-04 actual step time=3.601000e-04 actual total time=3.601000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000246 time avg. forc= 0.000018 largest residual force= 0.000013 in node 762 and dof 2 largest increment of disp= 3.295770e-06 largest correction to disp= 8.225507e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000246 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.295770e-06 largest correction to disp= 1.518092e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000296495, limit = 0.001, normalization = 0.000184753, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.022707, limit = 0.001, normalization = 0.367047, conv = false ---[precice]  iteration: 5 of 100, time-window: 3601, time: 0.00036 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3601 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.600000e-04 actual step time=3.601000e-04 actual total time=3.601000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000245 time avg. forc= 0.000018 largest residual force= 0.003020 in node 1799 and dof 2 largest increment of disp= 3.295770e-06 largest correction to disp= 8.216475e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000246 time avg. forc= 0.000018 largest residual force= 0.000003 in node 1834 and dof 2 largest increment of disp= 3.295770e-06 largest correction to disp= 1.729780e-07 in node 1798 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000246 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1799 and dof 3 largest increment of disp= 3.295770e-06 largest correction to disp= 1.386942e-10 in node 1798 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000106866, limit = 0.001, normalization = 0.000184752, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00626275, limit = 0.001, normalization = 0.367041, conv = false ---[precice]  iteration: 6 of 100, time-window: 3601, time: 0.00036 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3601 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.600000e-04 actual step time=3.601000e-04 actual total time=3.601000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000246 time avg. forc= 0.000018 largest residual force= 0.000013 in node 762 and dof 2 largest increment of disp= 3.295770e-06 largest correction to disp= 8.212000e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000246 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.295770e-06 largest correction to disp= 1.512929e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.77746e-05, limit = 0.001, normalization = 0.000184752, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00020832, limit = 0.001, normalization = 0.367045, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3602, time: 0.0003601 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3602 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.601000e-04 actual step time=3.602000e-04 actual total time=3.602000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000314 time avg. forc= 0.000018 largest residual force= 0.000021 in node 1333 and dof 2 largest increment of disp= 2.101112e-06 largest correction to disp= 1.411094e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000314 time avg. forc= 0.000018 largest residual force= 0.000001 in node 875 and dof 2 largest increment of disp= 2.101112e-06 largest correction to disp= 2.247757e-09 in node 1099 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000314 time avg. forc= 0.000018 largest residual force= 0.000000 in node 875 and dof 2 largest increment of disp= 2.101112e-06 largest correction to disp= 2.826756e-10 in node 875 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0354951, limit = 0.001, normalization = 0.000185007, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.34145, limit = 0.001, normalization = 0.491298, conv = false ---[precice]  iteration: 2 of 100, time-window: 3602, time: 0.0003601 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3602 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.601000e-04 actual step time=3.602000e-04 actual total time=3.602000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000312 time avg. forc= 0.000018 largest residual force= 0.000021 in node 1333 and dof 2 largest increment of disp= 2.101112e-06 largest correction to disp= 1.392151e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000312 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.101112e-06 largest correction to disp= 2.396509e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00869203, limit = 0.001, normalization = 0.000185028, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.133011, limit = 0.001, normalization = 0.285217, conv = false ---[precice]  iteration: 3 of 100, time-window: 3602, time: 0.0003601 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3602 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.601000e-04 actual step time=3.602000e-04 actual total time=3.602000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000312 time avg. forc= 0.000018 largest residual force= 0.000021 in node 1333 and dof 2 largest increment of disp= 2.101112e-06 largest correction to disp= 1.390537e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000312 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.101112e-06 largest correction to disp= 2.449693e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000572702, limit = 0.001, normalization = 0.000185015, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00517029, limit = 0.001, normalization = 0.285554, conv = false ---[precice]  iteration: 4 of 100, time-window: 3602, time: 0.0003601 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3602 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.601000e-04 actual step time=3.602000e-04 actual total time=3.602000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000312 time avg. forc= 0.000018 largest residual force= 0.000021 in node 1333 and dof 2 largest increment of disp= 2.101112e-06 largest correction to disp= 1.382724e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000312 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.101112e-06 largest correction to disp= 2.440515e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000158141, limit = 0.001, normalization = 0.000185019, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00400601, limit = 0.001, normalization = 0.285187, conv = false ---[precice]  iteration: 5 of 100, time-window: 3602, time: 0.0003601 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3602 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.601000e-04 actual step time=3.602000e-04 actual total time=3.602000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000312 time avg. forc= 0.000018 largest residual force= 0.000021 in node 1333 and dof 2 largest increment of disp= 2.101112e-06 largest correction to disp= 1.382484e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000312 time avg. forc= 0.000018 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.101112e-06 largest correction to disp= 2.443010e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.00399e-05, limit = 0.001, normalization = 0.000185019, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00261946, limit = 0.001, normalization = 0.285203, conv = false ---[precice]  iteration: 6 of 100, time-window: 3602, time: 0.0003601 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3602 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.601000e-04 actual step time=3.602000e-04 actual total time=3.602000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000312 time avg. forc= 0.000018 largest residual force= 0.000021 in node 1333 and dof 2 largest increment of disp= 2.101112e-06 largest correction to disp= 1.382556e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000312 time avg. forc= 0.000018 largest residual force= 0.000008 in node 1074 and dof 2 largest increment of disp= 2.101112e-06 largest correction to disp= 2.631303e-09 in node 1074 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000312 time avg. forc= 0.000018 largest residual force= 0.000000 in node 968 and dof 2 largest increment of disp= 2.101112e-06 largest correction to disp= 2.429243e-09 in node 1074 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.97764e-06, limit = 0.001, normalization = 0.000185019, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0004472, limit = 0.001, normalization = 0.285201, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3603, time: 0.0003602 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3603 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.602000e-04 actual step time=3.603000e-04 actual total time=3.603000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000372 time avg. forc= 0.000019 largest residual force= 0.000028 in node 1128 and dof 2 largest increment of disp= 2.697140e-06 largest correction to disp= 2.228889e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000372 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 2.697140e-06 largest correction to disp= 2.663338e-09 in node 1352 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0464998, limit = 0.001, normalization = 0.000184937, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.33792, limit = 0.001, normalization = 0.59513, conv = false ---[precice]  iteration: 2 of 100, time-window: 3603, time: 0.0003602 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3603 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.602000e-04 actual step time=3.603000e-04 actual total time=3.603000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000359 time avg. forc= 0.000019 largest residual force= 0.000029 in node 1128 and dof 2 largest increment of disp= 2.697140e-06 largest correction to disp= 6.648877e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000359 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 2.697140e-06 largest correction to disp= 3.132136e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00725882, limit = 0.001, normalization = 0.00018478, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.446119, limit = 0.001, normalization = 0.223537, conv = false ---[precice]  iteration: 3 of 100, time-window: 3603, time: 0.0003602 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3603 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.602000e-04 actual step time=3.603000e-04 actual total time=3.603000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000359 time avg. forc= 0.000019 largest residual force= 0.000029 in node 1128 and dof 2 largest increment of disp= 2.697140e-06 largest correction to disp= 6.453187e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000358 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 2.697140e-06 largest correction to disp= 3.121743e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00103574, limit = 0.001, normalization = 0.000184797, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0821028, limit = 0.001, normalization = 0.223237, conv = false ---[precice]  iteration: 4 of 100, time-window: 3603, time: 0.0003602 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3603 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.602000e-04 actual step time=3.603000e-04 actual total time=3.603000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000359 time avg. forc= 0.000019 largest residual force= 0.000029 in node 1128 and dof 2 largest increment of disp= 2.697140e-06 largest correction to disp= 6.451376e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000359 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 2.697140e-06 largest correction to disp= 3.104087e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000215115, limit = 0.001, normalization = 0.000184801, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00525479, limit = 0.001, normalization = 0.223207, conv = false ---[precice]  iteration: 5 of 100, time-window: 3603, time: 0.0003602 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3603 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.602000e-04 actual step time=3.603000e-04 actual total time=3.603000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000359 time avg. forc= 0.000019 largest residual force= 0.000029 in node 1128 and dof 2 largest increment of disp= 2.697140e-06 largest correction to disp= 6.447917e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000359 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 2.697140e-06 largest correction to disp= 3.104967e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.85392e-05, limit = 0.001, normalization = 0.000184801, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00170402, limit = 0.001, normalization = 0.223247, conv = false ---[precice]  iteration: 6 of 100, time-window: 3603, time: 0.0003602 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3603 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.602000e-04 actual step time=3.603000e-04 actual total time=3.603000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000359 time avg. forc= 0.000019 largest residual force= 0.000029 in node 1128 and dof 2 largest increment of disp= 2.697140e-06 largest correction to disp= 6.447868e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000359 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 2.697140e-06 largest correction to disp= 3.104591e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.62909e-05, limit = 0.001, normalization = 0.000184801, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000526359, limit = 0.001, normalization = 0.223242, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3604, time: 0.0003603 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3604 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.603000e-04 actual step time=3.604000e-04 actual total time=3.604000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000223 time avg. forc= 0.000019 largest residual force= 0.000027 in node 1384 and dof 2 largest increment of disp= 3.544114e-06 largest correction to disp= 2.453387e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000223 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 3.544114e-06 largest correction to disp= 1.888220e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0468403, limit = 0.001, normalization = 0.000184872, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.0208, limit = 0.001, normalization = 0.514389, conv = false ---[precice]  iteration: 2 of 100, time-window: 3604, time: 0.0003603 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3604 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.603000e-04 actual step time=3.604000e-04 actual total time=3.604000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000227 time avg. forc= 0.000019 largest residual force= 0.000016 in node 1594 and dof 2 largest increment of disp= 3.544114e-06 largest correction to disp= 1.361686e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000227 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 3.544114e-06 largest correction to disp= 1.240511e-09 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00593099, limit = 0.001, normalization = 0.000185144, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0438286, limit = 0.001, normalization = 0.414737, conv = false ---[precice]  iteration: 3 of 100, time-window: 3604, time: 0.0003603 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3604 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.603000e-04 actual step time=3.604000e-04 actual total time=3.604000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000227 time avg. forc= 0.000019 largest residual force= 0.000016 in node 1699 and dof 2 largest increment of disp= 3.544114e-06 largest correction to disp= 1.352740e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000227 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 3.544114e-06 largest correction to disp= 1.221041e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00205697, limit = 0.001, normalization = 0.000185149, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00730634, limit = 0.001, normalization = 0.413488, conv = false ---[precice]  iteration: 4 of 100, time-window: 3604, time: 0.0003603 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3604 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.603000e-04 actual step time=3.604000e-04 actual total time=3.604000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000227 time avg. forc= 0.000019 largest residual force= 0.000016 in node 1594 and dof 2 largest increment of disp= 3.544114e-06 largest correction to disp= 1.360959e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000227 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 3.544114e-06 largest correction to disp= 1.238969e-09 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000318932, limit = 0.001, normalization = 0.000185149, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0150301, limit = 0.001, normalization = 0.413879, conv = false ---[precice]  iteration: 5 of 100, time-window: 3604, time: 0.0003603 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3604 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.603000e-04 actual step time=3.604000e-04 actual total time=3.604000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000227 time avg. forc= 0.000019 largest residual force= 0.000016 in node 1594 and dof 2 largest increment of disp= 3.544114e-06 largest correction to disp= 1.361307e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000227 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 3.544114e-06 largest correction to disp= 1.244973e-09 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.80193e-05, limit = 0.001, normalization = 0.000185149, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00538264, limit = 0.001, normalization = 0.413658, conv = false ---[precice]  iteration: 6 of 100, time-window: 3604, time: 0.0003603 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3604 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.603000e-04 actual step time=3.604000e-04 actual total time=3.604000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000227 time avg. forc= 0.000019 largest residual force= 0.000016 in node 1594 and dof 2 largest increment of disp= 3.544114e-06 largest correction to disp= 1.361255e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000227 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 3.544114e-06 largest correction to disp= 1.242741e-09 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.52694e-05, limit = 0.001, normalization = 0.000185149, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00227809, limit = 0.001, normalization = 0.413656, conv = false ---[precice]  iteration: 7 of 100, time-window: 3604, time: 0.0003603 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3604 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.603000e-04 actual step time=3.604000e-04 actual total time=3.604000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000227 time avg. forc= 0.000019 largest residual force= 0.000016 in node 1594 and dof 2 largest increment of disp= 3.544114e-06 largest correction to disp= 1.361305e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000227 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 3.544114e-06 largest correction to disp= 1.241466e-09 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.74184e-06, limit = 0.001, normalization = 0.000185149, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000101944, limit = 0.001, normalization = 0.413662, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3605, time: 0.0003604 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3605 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.604000e-04 actual step time=3.605000e-04 actual total time=3.605000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000406 time avg. forc= 0.000019 largest residual force= 0.000042 in node 1280 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 8.535660e-07 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000406 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 3.245149e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0376338, limit = 0.001, normalization = 0.000185034, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.50047, limit = 0.001, normalization = 0.542543, conv = false ---[precice]  iteration: 2 of 100, time-window: 3605, time: 0.0003604 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3605 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.604000e-04 actual step time=3.605000e-04 actual total time=3.605000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000397 time avg. forc= 0.000019 largest residual force= 0.000040 in node 1333 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 8.420118e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000397 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 3.247293e-09 in node 1081 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0147239, limit = 0.001, normalization = 0.000184679, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.5579, limit = 0.001, normalization = 0.150197, conv = false ---[precice]  iteration: 3 of 100, time-window: 3605, time: 0.0003604 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3605 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.604000e-04 actual step time=3.605000e-04 actual total time=3.605000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000395 time avg. forc= 0.000019 largest residual force= 0.000040 in node 1333 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 7.924358e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000395 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 3.219099e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00171803, limit = 0.001, normalization = 0.00018478, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.492523, limit = 0.001, normalization = 0.120687, conv = false ---[precice]  iteration: 4 of 100, time-window: 3605, time: 0.0003604 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3605 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.604000e-04 actual step time=3.605000e-04 actual total time=3.605000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000395 time avg. forc= 0.000019 largest residual force= 0.000040 in node 1333 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 7.939348e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000395 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 3.222607e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000632765, limit = 0.001, normalization = 0.000184796, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00502153, limit = 0.001, normalization = 0.120065, conv = false ---[precice]  iteration: 5 of 100, time-window: 3605, time: 0.0003604 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3605 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.604000e-04 actual step time=3.605000e-04 actual total time=3.605000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000395 time avg. forc= 0.000019 largest residual force= 0.000040 in node 1333 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 7.948475e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000395 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 3.222602e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000199754, limit = 0.001, normalization = 0.000184797, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0461288, limit = 0.001, normalization = 0.120123, conv = false ---[precice]  iteration: 6 of 100, time-window: 3605, time: 0.0003604 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3605 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.604000e-04 actual step time=3.605000e-04 actual total time=3.605000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000395 time avg. forc= 0.000019 largest residual force= 0.000040 in node 1333 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 7.941266e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000395 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 3.222416e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.17494e-05, limit = 0.001, normalization = 0.000184796, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00328144, limit = 0.001, normalization = 0.120171, conv = false ---[precice]  iteration: 7 of 100, time-window: 3605, time: 0.0003604 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3605 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.604000e-04 actual step time=3.605000e-04 actual total time=3.605000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000395 time avg. forc= 0.000019 largest residual force= 0.000040 in node 1333 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 7.940539e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000395 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 3.222408e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.13043e-06, limit = 0.001, normalization = 0.000184796, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00230275, limit = 0.001, normalization = 0.120175, conv = false ---[precice]  iteration: 8 of 100, time-window: 3605, time: 0.0003604 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3605 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.604000e-04 actual step time=3.605000e-04 actual total time=3.605000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000395 time avg. forc= 0.000019 largest residual force= 0.000040 in node 1333 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 7.941049e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000395 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.710354e-06 largest correction to disp= 3.222399e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.03307e-06, limit = 0.001, normalization = 0.000184796, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000122252, limit = 0.001, normalization = 0.120168, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3606, time: 0.0003605 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3606 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.605000e-04 actual step time=3.606000e-04 actual total time=3.606000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000276 time avg. forc= 0.000019 largest residual force= 0.000029 in node 1487 and dof 2 largest increment of disp= 3.561544e-06 largest correction to disp= 2.769762e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000276 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.561544e-06 largest correction to disp= 1.802299e-09 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0538593, limit = 0.001, normalization = 0.00018485, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.09897, limit = 0.001, normalization = 0.574549, conv = false ---[precice]  iteration: 2 of 100, time-window: 3606, time: 0.0003605 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3606 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.605000e-04 actual step time=3.606000e-04 actual total time=3.606000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000269 time avg. forc= 0.000019 largest residual force= 0.000015 in node 762 and dof 2 largest increment of disp= 3.561544e-06 largest correction to disp= 8.805376e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000269 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.561544e-06 largest correction to disp= 2.010331e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.012609, limit = 0.001, normalization = 0.000185088, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.356062, limit = 0.001, normalization = 0.396466, conv = false ---[precice]  iteration: 3 of 100, time-window: 3606, time: 0.0003605 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3606 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.605000e-04 actual step time=3.606000e-04 actual total time=3.606000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000269 time avg. forc= 0.000019 largest residual force= 0.000015 in node 762 and dof 2 largest increment of disp= 3.561544e-06 largest correction to disp= 8.803811e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000269 time avg. forc= 0.000019 largest residual force= 0.000002 in node 372 and dof 2 largest increment of disp= 3.561544e-06 largest correction to disp= 1.843422e-09 in node 1077 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000269 time avg. forc= 0.000019 largest residual force= 0.000000 in node 345 and dof 2 largest increment of disp= 3.561544e-06 largest correction to disp= 1.225642e-10 in node 372 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00153676, limit = 0.001, normalization = 0.000185042, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0910451, limit = 0.001, normalization = 0.395333, conv = false ---[precice]  iteration: 4 of 100, time-window: 3606, time: 0.0003605 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3606 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.605000e-04 actual step time=3.606000e-04 actual total time=3.606000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000269 time avg. forc= 0.000019 largest residual force= 0.000015 in node 762 and dof 2 largest increment of disp= 3.561544e-06 largest correction to disp= 8.798092e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000269 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.561544e-06 largest correction to disp= 1.852794e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000563158, limit = 0.001, normalization = 0.000185051, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00283948, limit = 0.001, normalization = 0.395423, conv = false ---[precice]  iteration: 5 of 100, time-window: 3606, time: 0.0003605 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3606 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.605000e-04 actual step time=3.606000e-04 actual total time=3.606000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000269 time avg. forc= 0.000019 largest residual force= 0.000015 in node 762 and dof 2 largest increment of disp= 3.561544e-06 largest correction to disp= 8.786761e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000269 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.561544e-06 largest correction to disp= 1.851445e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.49505e-05, limit = 0.001, normalization = 0.000185051, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00479606, limit = 0.001, normalization = 0.395409, conv = false ---[precice]  iteration: 6 of 100, time-window: 3606, time: 0.0003605 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3606 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.605000e-04 actual step time=3.606000e-04 actual total time=3.606000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000269 time avg. forc= 0.000019 largest residual force= 0.000015 in node 762 and dof 2 largest increment of disp= 3.561544e-06 largest correction to disp= 8.786235e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000269 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.561544e-06 largest correction to disp= 1.851683e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.97877e-05, limit = 0.001, normalization = 0.000185051, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00197741, limit = 0.001, normalization = 0.395393, conv = false ---[precice]  iteration: 7 of 100, time-window: 3606, time: 0.0003605 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3606 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.605000e-04 actual step time=3.606000e-04 actual total time=3.606000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000269 time avg. forc= 0.000019 largest residual force= 0.000015 in node 762 and dof 2 largest increment of disp= 3.561544e-06 largest correction to disp= 8.785546e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000269 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.561544e-06 largest correction to disp= 1.852155e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.99621e-06, limit = 0.001, normalization = 0.000185051, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000312524, limit = 0.001, normalization = 0.395392, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3607, time: 0.0003606 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3607 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.606000e-04 actual step time=3.607000e-04 actual total time=3.607000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000337 time avg. forc= 0.000019 largest residual force= 0.000023 in node 1333 and dof 2 largest increment of disp= 2.332869e-06 largest correction to disp= 1.570551e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000337 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.332869e-06 largest correction to disp= 2.622898e-09 in node 1099 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0386601, limit = 0.001, normalization = 0.000185335, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.38268, limit = 0.001, normalization = 0.490617, conv = false ---[precice]  iteration: 2 of 100, time-window: 3607, time: 0.0003606 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3607 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.606000e-04 actual step time=3.607000e-04 actual total time=3.607000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000336 time avg. forc= 0.000019 largest residual force= 0.000024 in node 1333 and dof 2 largest increment of disp= 2.332869e-06 largest correction to disp= 1.463679e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000336 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.332869e-06 largest correction to disp= 3.154908e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0129797, limit = 0.001, normalization = 0.00018532, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.455915, limit = 0.001, normalization = 0.318115, conv = false ---[precice]  iteration: 3 of 100, time-window: 3607, time: 0.0003606 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3607 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.606000e-04 actual step time=3.607000e-04 actual total time=3.607000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000335 time avg. forc= 0.000019 largest residual force= 0.000023 in node 1333 and dof 2 largest increment of disp= 2.332869e-06 largest correction to disp= 1.507873e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000335 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.332869e-06 largest correction to disp= 2.807965e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00101319, limit = 0.001, normalization = 0.000185361, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0283614, limit = 0.001, normalization = 0.313771, conv = false ---[precice]  iteration: 4 of 100, time-window: 3607, time: 0.0003606 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3607 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.606000e-04 actual step time=3.607000e-04 actual total time=3.607000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000335 time avg. forc= 0.000019 largest residual force= 0.000023 in node 1333 and dof 2 largest increment of disp= 2.332869e-06 largest correction to disp= 1.511321e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000335 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.332869e-06 largest correction to disp= 2.819614e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000337113, limit = 0.001, normalization = 0.000185358, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0129549, limit = 0.001, normalization = 0.313772, conv = false ---[precice]  iteration: 5 of 100, time-window: 3607, time: 0.0003606 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3607 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.606000e-04 actual step time=3.607000e-04 actual total time=3.607000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000335 time avg. forc= 0.000019 largest residual force= 0.001061 in node 1488 and dof 2 largest increment of disp= 2.332869e-06 largest correction to disp= 1.509228e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000335 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1563 and dof 2 largest increment of disp= 2.332869e-06 largest correction to disp= 1.078411e-07 in node 1563 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.04207e-05, limit = 0.001, normalization = 0.000185358, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00173313, limit = 0.001, normalization = 0.313761, conv = false ---[precice]  iteration: 6 of 100, time-window: 3607, time: 0.0003606 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3607 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.606000e-04 actual step time=3.607000e-04 actual total time=3.607000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000335 time avg. forc= 0.000019 largest residual force= 0.000023 in node 1333 and dof 2 largest increment of disp= 2.332869e-06 largest correction to disp= 1.508996e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000335 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.332869e-06 largest correction to disp= 2.822105e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.24196e-05, limit = 0.001, normalization = 0.000185359, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000264966, limit = 0.001, normalization = 0.313751, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3608, time: 0.0003607 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3608 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.607000e-04 actual step time=3.608000e-04 actual total time=3.608000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000405 time avg. forc= 0.000019 largest residual force= 0.000033 in node 1128 and dof 2 largest increment of disp= 2.910095e-06 largest correction to disp= 2.398132e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000405 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 2.910095e-06 largest correction to disp= 3.110343e-09 in node 1352 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0501284, limit = 0.001, normalization = 0.000185252, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.37689, limit = 0.001, normalization = 0.610752, conv = false ---[precice]  iteration: 2 of 100, time-window: 3608, time: 0.0003607 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3608 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.607000e-04 actual step time=3.608000e-04 actual total time=3.608000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000390 time avg. forc= 0.000019 largest residual force= 0.000034 in node 1128 and dof 2 largest increment of disp= 2.910095e-06 largest correction to disp= 6.945126e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000390 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 2.910095e-06 largest correction to disp= 3.634294e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00729779, limit = 0.001, normalization = 0.000185103, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.372398, limit = 0.001, normalization = 0.238825, conv = false ---[precice]  iteration: 3 of 100, time-window: 3608, time: 0.0003607 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3608 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.607000e-04 actual step time=3.608000e-04 actual total time=3.608000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000390 time avg. forc= 0.000019 largest residual force= 0.000034 in node 1128 and dof 2 largest increment of disp= 2.910095e-06 largest correction to disp= 6.984863e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000390 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 2.910095e-06 largest correction to disp= 3.689367e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00107513, limit = 0.001, normalization = 0.000185083, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0342638, limit = 0.001, normalization = 0.236991, conv = false ---[precice]  iteration: 4 of 100, time-window: 3608, time: 0.0003607 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3608 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.607000e-04 actual step time=3.608000e-04 actual total time=3.608000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000390 time avg. forc= 0.000019 largest residual force= 0.000034 in node 1128 and dof 2 largest increment of disp= 2.910095e-06 largest correction to disp= 6.972762e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000390 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 2.910095e-06 largest correction to disp= 3.689735e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000145518, limit = 0.001, normalization = 0.000185084, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0314699, limit = 0.001, normalization = 0.236946, conv = false ---[precice]  iteration: 5 of 100, time-window: 3608, time: 0.0003607 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3608 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.607000e-04 actual step time=3.608000e-04 actual total time=3.608000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000390 time avg. forc= 0.000019 largest residual force= 0.000034 in node 1128 and dof 2 largest increment of disp= 2.910095e-06 largest correction to disp= 6.976019e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000390 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 2.910095e-06 largest correction to disp= 3.682843e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.60618e-05, limit = 0.001, normalization = 0.000185086, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000749407, limit = 0.001, normalization = 0.236956, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3609, time: 0.0003608 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3609 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.608000e-04 actual step time=3.609000e-04 actual total time=3.609000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000239 time avg. forc= 0.000019 largest residual force= 0.000031 in node 1384 and dof 2 largest increment of disp= 3.862645e-06 largest correction to disp= 2.673997e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000239 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 3.862645e-06 largest correction to disp= 2.243432e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0509948, limit = 0.001, normalization = 0.000185167, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.01968, limit = 0.001, normalization = 0.522173, conv = false ---[precice]  iteration: 2 of 100, time-window: 3609, time: 0.0003608 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3609 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.608000e-04 actual step time=3.609000e-04 actual total time=3.609000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000244 time avg. forc= 0.000019 largest residual force= 0.000019 in node 1699 and dof 2 largest increment of disp= 3.862645e-06 largest correction to disp= 1.421073e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000244 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 3.862645e-06 largest correction to disp= 1.716509e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00467075, limit = 0.001, normalization = 0.000185466, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.432619, limit = 0.001, normalization = 0.451785, conv = false ---[precice]  iteration: 3 of 100, time-window: 3609, time: 0.0003608 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3609 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.608000e-04 actual step time=3.609000e-04 actual total time=3.609000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000244 time avg. forc= 0.000019 largest residual force= 0.000019 in node 1594 and dof 2 largest increment of disp= 3.862645e-06 largest correction to disp= 1.464879e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000244 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 3.862645e-06 largest correction to disp= 1.449910e-09 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00110323, limit = 0.001, normalization = 0.000185494, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0156828, limit = 0.001, normalization = 0.449758, conv = false ---[precice]  iteration: 4 of 100, time-window: 3609, time: 0.0003608 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3609 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.608000e-04 actual step time=3.609000e-04 actual total time=3.609000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000244 time avg. forc= 0.000019 largest residual force= 0.000019 in node 1594 and dof 2 largest increment of disp= 3.862645e-06 largest correction to disp= 1.466442e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000244 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 3.862645e-06 largest correction to disp= 1.446072e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000335969, limit = 0.001, normalization = 0.000185492, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0278226, limit = 0.001, normalization = 0.449817, conv = false ---[precice]  iteration: 5 of 100, time-window: 3609, time: 0.0003608 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3609 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.608000e-04 actual step time=3.609000e-04 actual total time=3.609000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000244 time avg. forc= 0.000019 largest residual force= 0.000019 in node 1594 and dof 2 largest increment of disp= 3.862645e-06 largest correction to disp= 1.464094e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000244 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 3.862645e-06 largest correction to disp= 1.454546e-09 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000127119, limit = 0.001, normalization = 0.000185495, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00891734, limit = 0.001, normalization = 0.449761, conv = false ---[precice]  iteration: 6 of 100, time-window: 3609, time: 0.0003608 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3609 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.608000e-04 actual step time=3.609000e-04 actual total time=3.609000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000244 time avg. forc= 0.000019 largest residual force= 0.000019 in node 1594 and dof 2 largest increment of disp= 3.862645e-06 largest correction to disp= 1.464219e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000244 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 3.862645e-06 largest correction to disp= 1.462729e-09 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.67667e-05, limit = 0.001, normalization = 0.000185496, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0019003, limit = 0.001, normalization = 0.449745, conv = false ---[precice]  iteration: 7 of 100, time-window: 3609, time: 0.0003608 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3609 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.608000e-04 actual step time=3.609000e-04 actual total time=3.609000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000244 time avg. forc= 0.000019 largest residual force= 0.000019 in node 1594 and dof 2 largest increment of disp= 3.862645e-06 largest correction to disp= 1.464147e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000244 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 3.862645e-06 largest correction to disp= 1.461380e-09 in node 1386 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.23157e-06, limit = 0.001, normalization = 0.000185496, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000156925, limit = 0.001, normalization = 0.449752, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3610, time: 0.0003609 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3610 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.609000e-04 actual step time=3.610000e-04 actual total time=3.610000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000438 time avg. forc= 0.000019 largest residual force= 0.000050 in node 1280 and dof 2 largest increment of disp= 1.826755e-06 largest correction to disp= 8.758909e-07 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000438 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.826755e-06 largest correction to disp= 4.003750e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0405804, limit = 0.001, normalization = 0.000185364, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.55832, limit = 0.001, normalization = 0.549818, conv = false ---[precice]  iteration: 2 of 100, time-window: 3610, time: 0.0003609 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3610 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.609000e-04 actual step time=3.610000e-04 actual total time=3.610000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000427 time avg. forc= 0.000019 largest residual force= 0.000046 in node 1333 and dof 2 largest increment of disp= 1.826755e-06 largest correction to disp= 8.643721e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000427 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.826755e-06 largest correction to disp= 3.824016e-09 in node 1354 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00595696, limit = 0.001, normalization = 0.000185053, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.21208, limit = 0.001, normalization = 0.133466, conv = false ---[precice]  iteration: 3 of 100, time-window: 3610, time: 0.0003609 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3610 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.609000e-04 actual step time=3.610000e-04 actual total time=3.610000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000427 time avg. forc= 0.000019 largest residual force= 0.000046 in node 1333 and dof 2 largest increment of disp= 1.826755e-06 largest correction to disp= 8.860614e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000427 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.826755e-06 largest correction to disp= 3.918266e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000976158, limit = 0.001, normalization = 0.00018508, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.158674, limit = 0.001, normalization = 0.133357, conv = false ---[precice]  iteration: 4 of 100, time-window: 3610, time: 0.0003609 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3610 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.609000e-04 actual step time=3.610000e-04 actual total time=3.610000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000427 time avg. forc= 0.000019 largest residual force= 0.000047 in node 1333 and dof 2 largest increment of disp= 1.826755e-06 largest correction to disp= 8.837612e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000427 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.826755e-06 largest correction to disp= 3.914583e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000212399, limit = 0.001, normalization = 0.000185086, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0204158, limit = 0.001, normalization = 0.133621, conv = false ---[precice]  iteration: 5 of 100, time-window: 3610, time: 0.0003609 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3610 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.609000e-04 actual step time=3.610000e-04 actual total time=3.610000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000427 time avg. forc= 0.000019 largest residual force= 0.000047 in node 1333 and dof 2 largest increment of disp= 1.826755e-06 largest correction to disp= 8.845996e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000427 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.826755e-06 largest correction to disp= 3.913923e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.04128e-05, limit = 0.001, normalization = 0.000185086, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000700652, limit = 0.001, normalization = 0.133304, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3611, time: 0.000361 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3611 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.610000e-04 actual step time=3.611000e-04 actual total time=3.611000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000302 time avg. forc= 0.000019 largest residual force= 0.000034 in node 867 and dof 2 largest increment of disp= 3.848705e-06 largest correction to disp= 3.007706e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000302 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.848705e-06 largest correction to disp= 2.128269e-09 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0583439, limit = 0.001, normalization = 0.000185129, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.1168, limit = 0.001, normalization = 0.589, conv = false ---[precice]  iteration: 2 of 100, time-window: 3611, time: 0.000361 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3611 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.610000e-04 actual step time=3.611000e-04 actual total time=3.611000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000294 time avg. forc= 0.000019 largest residual force= 0.000238 in node 600 and dof 2 largest increment of disp= 3.848705e-06 largest correction to disp= 9.230780e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000294 time avg. forc= 0.000019 largest residual force= 0.000000 in node 516 and dof 2 largest increment of disp= 3.848705e-06 largest correction to disp= 2.936485e-08 in node 600 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00422005, limit = 0.001, normalization = 0.000185385, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.101473, limit = 0.001, normalization = 0.42814, conv = false ---[precice]  iteration: 3 of 100, time-window: 3611, time: 0.000361 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3611 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.610000e-04 actual step time=3.611000e-04 actual total time=3.611000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000294 time avg. forc= 0.000019 largest residual force= 0.000018 in node 762 and dof 2 largest increment of disp= 3.848705e-06 largest correction to disp= 9.416078e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000294 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.848705e-06 largest correction to disp= 2.238188e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000633041, limit = 0.001, normalization = 0.000185349, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0852706, limit = 0.001, normalization = 0.425962, conv = false ---[precice]  iteration: 4 of 100, time-window: 3611, time: 0.000361 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3611 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.610000e-04 actual step time=3.611000e-04 actual total time=3.611000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000294 time avg. forc= 0.000019 largest residual force= 0.000018 in node 762 and dof 2 largest increment of disp= 3.848705e-06 largest correction to disp= 9.440152e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000294 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 3.848705e-06 largest correction to disp= 2.270980e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000310436, limit = 0.001, normalization = 0.000185356, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00897895, limit = 0.001, normalization = 0.425964, conv = false ---[precice]  iteration: 5 of 100, time-window: 3611, time: 0.000361 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3611 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.610000e-04 actual step time=3.611000e-04 actual total time=3.611000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000294 time avg. forc= 0.000019 largest residual force= 0.000018 in node 762 and dof 2 largest increment of disp= 3.848705e-06 largest correction to disp= 9.449562e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000294 time avg. forc= 0.000019 largest residual force= 0.000002 in node 1941 and dof 2 largest increment of disp= 3.848705e-06 largest correction to disp= 2.270409e-09 in node 1383 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000294 time avg. forc= 0.000019 largest residual force= 0.000000 in node 973 and dof 2 largest increment of disp= 3.848705e-06 largest correction to disp= 2.011566e-10 in node 1904 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 6.6801e-05, limit = 0.001, normalization = 0.000185356, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000269284, limit = 0.001, normalization = 0.425878, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3612, time: 0.0003611 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3612 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.611000e-04 actual step time=3.612000e-04 actual total time=3.612000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000362 time avg. forc= 0.000019 largest residual force= 0.000027 in node 1333 and dof 2 largest increment of disp= 2.586942e-06 largest correction to disp= 1.744959e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000362 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.586942e-06 largest correction to disp= 3.076311e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0421217, limit = 0.001, normalization = 0.000185674, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.43686, limit = 0.001, normalization = 0.484669, conv = false ---[precice]  iteration: 2 of 100, time-window: 3612, time: 0.0003611 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3612 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.611000e-04 actual step time=3.612000e-04 actual total time=3.612000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000360 time avg. forc= 0.000019 largest residual force= 0.000027 in node 1333 and dof 2 largest increment of disp= 2.586942e-06 largest correction to disp= 1.635493e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000360 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.586942e-06 largest correction to disp= 3.553919e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00374966, limit = 0.001, normalization = 0.000185679, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.19022, limit = 0.001, normalization = 0.35335, conv = false ---[precice]  iteration: 3 of 100, time-window: 3612, time: 0.0003611 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3612 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.611000e-04 actual step time=3.612000e-04 actual total time=3.612000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000360 time avg. forc= 0.000019 largest residual force= 0.000027 in node 1333 and dof 2 largest increment of disp= 2.586942e-06 largest correction to disp= 1.641272e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000360 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.586942e-06 largest correction to disp= 3.352735e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000860398, limit = 0.001, normalization = 0.000185707, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0500512, limit = 0.001, normalization = 0.345508, conv = false ---[precice]  iteration: 4 of 100, time-window: 3612, time: 0.0003611 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3612 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.611000e-04 actual step time=3.612000e-04 actual total time=3.612000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000360 time avg. forc= 0.000019 largest residual force= 0.000027 in node 1333 and dof 2 largest increment of disp= 2.586942e-06 largest correction to disp= 1.644376e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000360 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.586942e-06 largest correction to disp= 3.307720e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000172693, limit = 0.001, normalization = 0.000185714, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0216777, limit = 0.001, normalization = 0.345168, conv = false ---[precice]  iteration: 5 of 100, time-window: 3612, time: 0.0003611 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3612 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.611000e-04 actual step time=3.612000e-04 actual total time=3.612000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000360 time avg. forc= 0.000019 largest residual force= 0.000027 in node 1333 and dof 2 largest increment of disp= 2.586942e-06 largest correction to disp= 1.644534e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000360 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.586942e-06 largest correction to disp= 3.316806e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.55994e-05, limit = 0.001, normalization = 0.000185712, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00184225, limit = 0.001, normalization = 0.34508, conv = false ---[precice]  iteration: 6 of 100, time-window: 3612, time: 0.0003611 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3612 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.611000e-04 actual step time=3.612000e-04 actual total time=3.612000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000360 time avg. forc= 0.000019 largest residual force= 0.000027 in node 1333 and dof 2 largest increment of disp= 2.586942e-06 largest correction to disp= 1.644510e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000360 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.586942e-06 largest correction to disp= 3.318520e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.36833e-05, limit = 0.001, normalization = 0.000185712, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000170379, limit = 0.001, normalization = 0.345099, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3613, time: 0.0003612 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3613 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.612000e-04 actual step time=3.613000e-04 actual total time=3.613000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000441 time avg. forc= 0.000019 largest residual force= 0.000040 in node 1128 and dof 2 largest increment of disp= 3.137852e-06 largest correction to disp= 2.576729e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000441 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 3.137852e-06 largest correction to disp= 3.753119e-09 in node 1352 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0540376, limit = 0.001, normalization = 0.000185577, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.41696, limit = 0.001, normalization = 0.629931, conv = false ---[precice]  iteration: 2 of 100, time-window: 3613, time: 0.0003612 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3613 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.612000e-04 actual step time=3.613000e-04 actual total time=3.613000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000425 time avg. forc= 0.000019 largest residual force= 0.000041 in node 1128 and dof 2 largest increment of disp= 3.137852e-06 largest correction to disp= 7.475736e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000425 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 3.137852e-06 largest correction to disp= 4.350241e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0145915, limit = 0.001, normalization = 0.000185373, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0551057, limit = 0.001, normalization = 0.250411, conv = false ---[precice]  iteration: 3 of 100, time-window: 3613, time: 0.0003612 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3613 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.612000e-04 actual step time=3.613000e-04 actual total time=3.613000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000425 time avg. forc= 0.000019 largest residual force= 0.000041 in node 1128 and dof 2 largest increment of disp= 3.137852e-06 largest correction to disp= 7.684656e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000425 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 3.137852e-06 largest correction to disp= 4.318317e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00379758, limit = 0.001, normalization = 0.000185377, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.113305, limit = 0.001, normalization = 0.251838, conv = false ---[precice]  iteration: 4 of 100, time-window: 3613, time: 0.0003612 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3613 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.612000e-04 actual step time=3.613000e-04 actual total time=3.613000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000425 time avg. forc= 0.000019 largest residual force= 0.000041 in node 1128 and dof 2 largest increment of disp= 3.137852e-06 largest correction to disp= 7.572821e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000425 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 3.137852e-06 largest correction to disp= 4.363368e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000859256, limit = 0.001, normalization = 0.000185369, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0447484, limit = 0.001, normalization = 0.251431, conv = false ---[precice]  iteration: 5 of 100, time-window: 3613, time: 0.0003612 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3613 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.612000e-04 actual step time=3.613000e-04 actual total time=3.613000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000425 time avg. forc= 0.000019 largest residual force= 0.000041 in node 1128 and dof 2 largest increment of disp= 3.137852e-06 largest correction to disp= 7.535289e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000425 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 3.137852e-06 largest correction to disp= 4.367196e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000252401, limit = 0.001, normalization = 0.00018537, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.054568, limit = 0.001, normalization = 0.251336, conv = false ---[precice]  iteration: 6 of 100, time-window: 3613, time: 0.0003612 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3613 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.612000e-04 actual step time=3.613000e-04 actual total time=3.613000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000425 time avg. forc= 0.000019 largest residual force= 0.000041 in node 1128 and dof 2 largest increment of disp= 3.137852e-06 largest correction to disp= 7.537236e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000425 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 3.137852e-06 largest correction to disp= 4.357056e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.08108e-05, limit = 0.001, normalization = 0.000185373, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00280549, limit = 0.001, normalization = 0.251387, conv = false ---[precice]  iteration: 7 of 100, time-window: 3613, time: 0.0003612 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3613 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.612000e-04 actual step time=3.613000e-04 actual total time=3.613000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000425 time avg. forc= 0.000019 largest residual force= 0.000041 in node 1128 and dof 2 largest increment of disp= 3.137852e-06 largest correction to disp= 7.538939e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000425 time avg. forc= 0.000019 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 3.137852e-06 largest correction to disp= 4.356260e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.14253e-05, limit = 0.001, normalization = 0.000185373, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000595942, limit = 0.001, normalization = 0.251393, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3614, time: 0.0003613 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3614 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.613000e-04 actual step time=3.614000e-04 actual total time=3.614000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000257 time avg. forc= 0.000020 largest residual force= 0.000037 in node 1384 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 2.918643e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000257 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 2.826653e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.055531, limit = 0.001, normalization = 0.000185468, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.01696, limit = 0.001, normalization = 0.527275, conv = false ---[precice]  iteration: 2 of 100, time-window: 3614, time: 0.0003613 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3614 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.613000e-04 actual step time=3.614000e-04 actual total time=3.614000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000263 time avg. forc= 0.000020 largest residual force= 0.000023 in node 1699 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 1.561557e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000263 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 2.140991e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00371545, limit = 0.001, normalization = 0.000185819, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.265257, limit = 0.001, normalization = 0.488971, conv = false ---[precice]  iteration: 3 of 100, time-window: 3614, time: 0.0003613 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3614 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.613000e-04 actual step time=3.614000e-04 actual total time=3.614000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000262 time avg. forc= 0.000020 largest residual force= 0.000022 in node 1699 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 1.576928e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000262 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 1.857529e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00196384, limit = 0.001, normalization = 0.000185855, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0352511, limit = 0.001, normalization = 0.489352, conv = false ---[precice]  iteration: 4 of 100, time-window: 3614, time: 0.0003613 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3614 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.613000e-04 actual step time=3.614000e-04 actual total time=3.614000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000262 time avg. forc= 0.000020 largest residual force= 0.000022 in node 1699 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 1.581586e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000262 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 1.846069e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000395073, limit = 0.001, normalization = 0.000185856, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.016249, limit = 0.001, normalization = 0.489178, conv = false ---[precice]  iteration: 5 of 100, time-window: 3614, time: 0.0003613 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3614 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.613000e-04 actual step time=3.614000e-04 actual total time=3.614000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000262 time avg. forc= 0.000020 largest residual force= 0.000022 in node 1699 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 1.578893e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000262 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 1.844243e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000103965, limit = 0.001, normalization = 0.000185857, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00414138, limit = 0.001, normalization = 0.488891, conv = false ---[precice]  iteration: 6 of 100, time-window: 3614, time: 0.0003613 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3614 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.613000e-04 actual step time=3.614000e-04 actual total time=3.614000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000262 time avg. forc= 0.000020 largest residual force= 0.000022 in node 1699 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 1.579234e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000262 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 1.841223e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.43364e-05, limit = 0.001, normalization = 0.000185857, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00132407, limit = 0.001, normalization = 0.488898, conv = false ---[precice]  iteration: 7 of 100, time-window: 3614, time: 0.0003613 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3614 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.613000e-04 actual step time=3.614000e-04 actual total time=3.614000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000262 time avg. forc= 0.000020 largest residual force= 0.000022 in node 1699 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 1.579287e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000262 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 1.838399e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.46247e-06, limit = 0.001, normalization = 0.000185857, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00146106, limit = 0.001, normalization = 0.488909, conv = false ---[precice]  iteration: 8 of 100, time-window: 3614, time: 0.0003613 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3614 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.613000e-04 actual step time=3.614000e-04 actual total time=3.614000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000262 time avg. forc= 0.000020 largest residual force= 0.000022 in node 1699 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 1.579230e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000262 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 4.214518e-06 largest correction to disp= 1.839404e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.77229e-06, limit = 0.001, normalization = 0.000185857, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 8.06186e-05, limit = 0.001, normalization = 0.488915, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3615, time: 0.0003614 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3615 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.614000e-04 actual step time=3.615000e-04 actual total time=3.615000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000474 time avg. forc= 0.000020 largest residual force= 0.000057 in node 1280 and dof 2 largest increment of disp= 1.953708e-06 largest correction to disp= 9.050401e-07 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000474 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.953708e-06 largest correction to disp= 4.943554e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0437682, limit = 0.001, normalization = 0.000185706, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.61972, limit = 0.001, normalization = 0.559386, conv = false ---[precice]  iteration: 2 of 100, time-window: 3615, time: 0.0003614 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3615 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.614000e-04 actual step time=3.615000e-04 actual total time=3.615000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000055 in node 1333 and dof 2 largest increment of disp= 1.953708e-06 largest correction to disp= 9.860199e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.953708e-06 largest correction to disp= 4.540565e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00510657, limit = 0.001, normalization = 0.000185375, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.186212, limit = 0.001, normalization = 0.150361, conv = false ---[precice]  iteration: 3 of 100, time-window: 3615, time: 0.0003614 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3615 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.614000e-04 actual step time=3.615000e-04 actual total time=3.615000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000056 in node 1333 and dof 2 largest increment of disp= 1.953708e-06 largest correction to disp= 9.853334e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.953708e-06 largest correction to disp= 4.825308e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00121411, limit = 0.001, normalization = 0.000185385, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0511681, limit = 0.001, normalization = 0.147867, conv = false ---[precice]  iteration: 4 of 100, time-window: 3615, time: 0.0003614 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3615 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.614000e-04 actual step time=3.615000e-04 actual total time=3.615000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000160 in node 372 and dof 2 largest increment of disp= 1.953708e-06 largest correction to disp= 9.786125e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000000 in node 372 and dof 2 largest increment of disp= 1.953708e-06 largest correction to disp= 5.343964e-08 in node 372 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00018369, limit = 0.001, normalization = 0.000185382, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0270617, limit = 0.001, normalization = 0.147925, conv = false ---[precice]  iteration: 5 of 100, time-window: 3615, time: 0.0003614 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3615 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.614000e-04 actual step time=3.615000e-04 actual total time=3.615000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000056 in node 1333 and dof 2 largest increment of disp= 1.953708e-06 largest correction to disp= 9.775595e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.953708e-06 largest correction to disp= 4.817583e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 6.05383e-05, limit = 0.001, normalization = 0.000185382, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0115619, limit = 0.001, normalization = 0.148078, conv = false ---[precice]  iteration: 6 of 100, time-window: 3615, time: 0.0003614 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3615 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.614000e-04 actual step time=3.615000e-04 actual total time=3.615000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000056 in node 1333 and dof 2 largest increment of disp= 1.953708e-06 largest correction to disp= 9.775834e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 1.953708e-06 largest correction to disp= 4.817905e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.11838e-06, limit = 0.001, normalization = 0.000185383, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00314554, limit = 0.001, normalization = 0.148099, conv = false ---[precice]  iteration: 7 of 100, time-window: 3615, time: 0.0003614 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3615 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.614000e-04 actual step time=3.615000e-04 actual total time=3.615000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000726 in node 1583 and dof 1 largest increment of disp= 1.953708e-06 largest correction to disp= 9.775787e-07 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000003 in node 1666 and dof 2 largest increment of disp= 1.953708e-06 largest correction to disp= 2.107929e-07 in node 1666 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1771 and dof 2 largest increment of disp= 1.953708e-06 largest correction to disp= 1.641014e-10 in node 1771 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.98691e-06, limit = 0.001, normalization = 0.000185383, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 3.5849e-05, limit = 0.001, normalization = 0.1481, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3616, time: 0.0003615 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3616 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.615000e-04 actual step time=3.616000e-04 actual total time=3.616000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000332 time avg. forc= 0.000020 largest residual force= 0.000039 in node 867 and dof 2 largest increment of disp= 4.151055e-06 largest correction to disp= 3.255154e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000332 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.151055e-06 largest correction to disp= 2.655352e-09 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0632143, limit = 0.001, normalization = 0.000185411, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.13509, limit = 0.001, normalization = 0.608925, conv = false ---[precice]  iteration: 2 of 100, time-window: 3616, time: 0.0003615 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3616 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.615000e-04 actual step time=3.616000e-04 actual total time=3.616000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000322 time avg. forc= 0.000020 largest residual force= 0.000021 in node 762 and dof 2 largest increment of disp= 4.151055e-06 largest correction to disp= 9.957183e-07 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000322 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.151055e-06 largest correction to disp= 2.824234e-09 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00456968, limit = 0.001, normalization = 0.000185637, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.40843, limit = 0.001, normalization = 0.462282, conv = false ---[precice]  iteration: 3 of 100, time-window: 3616, time: 0.0003615 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3616 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.615000e-04 actual step time=3.616000e-04 actual total time=3.616000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000322 time avg. forc= 0.000020 largest residual force= 0.000021 in node 762 and dof 2 largest increment of disp= 4.151055e-06 largest correction to disp= 1.008165e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000322 time avg. forc= 0.000020 largest residual force= 0.000002 in node 587 and dof 1 largest increment of disp= 4.151055e-06 largest correction to disp= 2.738740e-09 in node 1383 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000322 time avg. forc= 0.000020 largest residual force= 0.000000 in node 629 and dof 2 largest increment of disp= 4.151055e-06 largest correction to disp= 1.452166e-09 in node 626 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00093727, limit = 0.001, normalization = 0.000185662, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0526012, limit = 0.001, normalization = 0.458702, conv = false ---[precice]  iteration: 4 of 100, time-window: 3616, time: 0.0003615 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3616 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.615000e-04 actual step time=3.616000e-04 actual total time=3.616000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000322 time avg. forc= 0.000020 largest residual force= 0.000021 in node 762 and dof 2 largest increment of disp= 4.151055e-06 largest correction to disp= 1.006285e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000322 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.151055e-06 largest correction to disp= 2.771659e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000199225, limit = 0.001, normalization = 0.00018567, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.025922, limit = 0.001, normalization = 0.458611, conv = false ---[precice]  iteration: 5 of 100, time-window: 3616, time: 0.0003615 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3616 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.615000e-04 actual step time=3.616000e-04 actual total time=3.616000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000322 time avg. forc= 0.000020 largest residual force= 0.000021 in node 762 and dof 2 largest increment of disp= 4.151055e-06 largest correction to disp= 1.006392e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000322 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.151055e-06 largest correction to disp= 2.760316e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000101043, limit = 0.001, normalization = 0.000185667, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00207533, limit = 0.001, normalization = 0.458627, conv = false ---[precice]  iteration: 6 of 100, time-window: 3616, time: 0.0003615 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3616 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.615000e-04 actual step time=3.616000e-04 actual total time=3.616000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000322 time avg. forc= 0.000020 largest residual force= 0.000021 in node 762 and dof 2 largest increment of disp= 4.151055e-06 largest correction to disp= 1.006460e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000322 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.151055e-06 largest correction to disp= 2.760234e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.22091e-05, limit = 0.001, normalization = 0.000185667, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00153193, limit = 0.001, normalization = 0.458632, conv = false ---[precice]  iteration: 7 of 100, time-window: 3616, time: 0.0003615 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3616 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.615000e-04 actual step time=3.616000e-04 actual total time=3.616000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000322 time avg. forc= 0.000020 largest residual force= 0.000021 in node 762 and dof 2 largest increment of disp= 4.151055e-06 largest correction to disp= 1.006421e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000322 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.151055e-06 largest correction to disp= 2.759474e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.76131e-06, limit = 0.001, normalization = 0.000185667, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 9.17674e-06, limit = 0.001, normalization = 0.458631, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3617, time: 0.0003616 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3617 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.616000e-04 actual step time=3.617000e-04 actual total time=3.617000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000389 time avg. forc= 0.000020 largest residual force= 0.000031 in node 1333 and dof 2 largest increment of disp= 2.876305e-06 largest correction to disp= 1.946528e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000389 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.876305e-06 largest correction to disp= 3.560667e-09 in node 1099 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0459096, limit = 0.001, normalization = 0.000186023, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.47953, limit = 0.001, normalization = 0.490979, conv = false ---[precice]  iteration: 2 of 100, time-window: 3617, time: 0.0003616 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3617 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.616000e-04 actual step time=3.617000e-04 actual total time=3.617000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000020 largest residual force= 0.000031 in node 1333 and dof 2 largest increment of disp= 2.876305e-06 largest correction to disp= 1.798120e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.876305e-06 largest correction to disp= 3.659285e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00812047, limit = 0.001, normalization = 0.000186099, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.199285, limit = 0.001, normalization = 0.380978, conv = false ---[precice]  iteration: 3 of 100, time-window: 3617, time: 0.0003616 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3617 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.616000e-04 actual step time=3.617000e-04 actual total time=3.617000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000020 largest residual force= 0.000031 in node 1333 and dof 2 largest increment of disp= 2.876305e-06 largest correction to disp= 1.802693e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.876305e-06 largest correction to disp= 3.669573e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00124402, limit = 0.001, normalization = 0.000186096, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.18081, limit = 0.001, normalization = 0.380234, conv = false ---[precice]  iteration: 4 of 100, time-window: 3617, time: 0.0003616 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3617 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.616000e-04 actual step time=3.617000e-04 actual total time=3.617000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000020 largest residual force= 0.000031 in node 1333 and dof 2 largest increment of disp= 2.876305e-06 largest correction to disp= 1.799738e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.876305e-06 largest correction to disp= 3.778687e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000199191, limit = 0.001, normalization = 0.000186081, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0297293, limit = 0.001, normalization = 0.379242, conv = false ---[precice]  iteration: 5 of 100, time-window: 3617, time: 0.0003616 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3617 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.616000e-04 actual step time=3.617000e-04 actual total time=3.617000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000020 largest residual force= 0.000031 in node 1333 and dof 2 largest increment of disp= 2.876305e-06 largest correction to disp= 1.800209e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.876305e-06 largest correction to disp= 3.764540e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.56273e-05, limit = 0.001, normalization = 0.000186083, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0029078, limit = 0.001, normalization = 0.379318, conv = false ---[precice]  iteration: 6 of 100, time-window: 3617, time: 0.0003616 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3617 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.616000e-04 actual step time=3.617000e-04 actual total time=3.617000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000020 largest residual force= 0.000031 in node 1333 and dof 2 largest increment of disp= 2.876305e-06 largest correction to disp= 1.800365e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 2.876305e-06 largest correction to disp= 3.763388e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.14794e-05, limit = 0.001, normalization = 0.000186083, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000309433, limit = 0.001, normalization = 0.379328, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3618, time: 0.0003617 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3618 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.617000e-04 actual step time=3.618000e-04 actual total time=3.618000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000480 time avg. forc= 0.000020 largest residual force= 0.000048 in node 1128 and dof 2 largest increment of disp= 3.391366e-06 largest correction to disp= 2.779473e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000480 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 3.391366e-06 largest correction to disp= 4.416997e-09 in node 1352 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0582603, limit = 0.001, normalization = 0.000185915, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.45712, limit = 0.001, normalization = 0.648842, conv = false ---[precice]  iteration: 2 of 100, time-window: 3618, time: 0.0003617 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3618 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.617000e-04 actual step time=3.618000e-04 actual total time=3.618000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000049 in node 1128 and dof 2 largest increment of disp= 3.391366e-06 largest correction to disp= 8.016236e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 3.391366e-06 largest correction to disp= 5.245114e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0104952, limit = 0.001, normalization = 0.000185666, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.475103, limit = 0.001, normalization = 0.31193, conv = false ---[precice]  iteration: 3 of 100, time-window: 3618, time: 0.0003617 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3618 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.617000e-04 actual step time=3.618000e-04 actual total time=3.618000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000463 time avg. forc= 0.000020 largest residual force= 0.000049 in node 1128 and dof 2 largest increment of disp= 3.391366e-06 largest correction to disp= 8.268273e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000463 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 3.391366e-06 largest correction to disp= 5.143154e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00155583, limit = 0.001, normalization = 0.000185669, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.105362, limit = 0.001, normalization = 0.267037, conv = false ---[precice]  iteration: 4 of 100, time-window: 3618, time: 0.0003617 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3618 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.617000e-04 actual step time=3.618000e-04 actual total time=3.618000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000049 in node 1128 and dof 2 largest increment of disp= 3.391366e-06 largest correction to disp= 8.174850e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 3.391366e-06 largest correction to disp= 5.208697e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000222096, limit = 0.001, normalization = 0.000185661, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.053273, limit = 0.001, normalization = 0.266639, conv = false ---[precice]  iteration: 5 of 100, time-window: 3618, time: 0.0003617 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3618 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.617000e-04 actual step time=3.618000e-04 actual total time=3.618000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000463 time avg. forc= 0.000020 largest residual force= 0.000049 in node 1128 and dof 2 largest increment of disp= 3.391366e-06 largest correction to disp= 8.192189e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 3.391366e-06 largest correction to disp= 5.194014e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 8.0736e-05, limit = 0.001, normalization = 0.000185664, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00162285, limit = 0.001, normalization = 0.266749, conv = false ---[precice]  iteration: 6 of 100, time-window: 3618, time: 0.0003617 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3618 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.617000e-04 actual step time=3.618000e-04 actual total time=3.618000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000463 time avg. forc= 0.000020 largest residual force= 0.000049 in node 1128 and dof 2 largest increment of disp= 3.391366e-06 largest correction to disp= 8.191979e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 3.391366e-06 largest correction to disp= 5.193074e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.29014e-05, limit = 0.001, normalization = 0.000185664, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00354667, limit = 0.001, normalization = 0.266738, conv = false ---[precice]  iteration: 7 of 100, time-window: 3618, time: 0.0003617 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3618 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.617000e-04 actual step time=3.618000e-04 actual total time=3.618000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000463 time avg. forc= 0.000020 largest residual force= 0.000049 in node 1128 and dof 2 largest increment of disp= 3.391366e-06 largest correction to disp= 8.191802e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000462 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1352 and dof 2 largest increment of disp= 3.391366e-06 largest correction to disp= 5.193933e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 6.19998e-06, limit = 0.001, normalization = 0.000185664, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 6.40739e-05, limit = 0.001, normalization = 0.266731, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3619, time: 0.0003618 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3619 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.618000e-04 actual step time=3.619000e-04 actual total time=3.619000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000277 time avg. forc= 0.000020 largest residual force= 0.000044 in node 1384 and dof 2 largest increment of disp= 4.589633e-06 largest correction to disp= 3.177218e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000277 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 4.589633e-06 largest correction to disp= 3.262761e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0604807, limit = 0.001, normalization = 0.000185772, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.0194, limit = 0.001, normalization = 0.537401, conv = false ---[precice]  iteration: 2 of 100, time-window: 3619, time: 0.0003618 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3619 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.618000e-04 actual step time=3.619000e-04 actual total time=3.619000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000283 time avg. forc= 0.000020 largest residual force= 0.000027 in node 1699 and dof 2 largest increment of disp= 4.589633e-06 largest correction to disp= 1.658278e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000283 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 4.589633e-06 largest correction to disp= 2.626502e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00700378, limit = 0.001, normalization = 0.000186173, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.699709, limit = 0.001, normalization = 0.547359, conv = false ---[precice]  iteration: 3 of 100, time-window: 3619, time: 0.0003618 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3619 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.618000e-04 actual step time=3.619000e-04 actual total time=3.619000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000282 time avg. forc= 0.000020 largest residual force= 0.000026 in node 1699 and dof 2 largest increment of disp= 4.589633e-06 largest correction to disp= 1.697001e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000282 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 4.589633e-06 largest correction to disp= 2.045417e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000669209, limit = 0.001, normalization = 0.000186238, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0277797, limit = 0.001, normalization = 0.531643, conv = false ---[precice]  iteration: 4 of 100, time-window: 3619, time: 0.0003618 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3619 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.618000e-04 actual step time=3.619000e-04 actual total time=3.619000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000282 time avg. forc= 0.000020 largest residual force= 0.000026 in node 1699 and dof 2 largest increment of disp= 4.589633e-06 largest correction to disp= 1.695363e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000282 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 4.589633e-06 largest correction to disp= 2.068681e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000183099, limit = 0.001, normalization = 0.000186235, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00181897, limit = 0.001, normalization = 0.531646, conv = false ---[precice]  iteration: 5 of 100, time-window: 3619, time: 0.0003618 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3619 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.618000e-04 actual step time=3.619000e-04 actual total time=3.619000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000282 time avg. forc= 0.000020 largest residual force= 0.000026 in node 1699 and dof 2 largest increment of disp= 4.589633e-06 largest correction to disp= 1.693939e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000282 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 4.589633e-06 largest correction to disp= 2.070342e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.31327e-05, limit = 0.001, normalization = 0.000186235, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00158911, limit = 0.001, normalization = 0.531706, conv = false ---[precice]  iteration: 6 of 100, time-window: 3619, time: 0.0003618 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3619 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.618000e-04 actual step time=3.619000e-04 actual total time=3.619000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000282 time avg. forc= 0.000020 largest residual force= 0.000026 in node 1699 and dof 2 largest increment of disp= 4.589633e-06 largest correction to disp= 1.693878e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000282 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 4.589633e-06 largest correction to disp= 2.069539e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.58353e-05, limit = 0.001, normalization = 0.000186236, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00156049, limit = 0.001, normalization = 0.531741, conv = false ---[precice]  iteration: 7 of 100, time-window: 3619, time: 0.0003618 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3619 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.618000e-04 actual step time=3.619000e-04 actual total time=3.619000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000282 time avg. forc= 0.000020 largest residual force= 0.000026 in node 1699 and dof 2 largest increment of disp= 4.589633e-06 largest correction to disp= 1.693960e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000282 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 4.589633e-06 largest correction to disp= 2.068530e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.97477e-06, limit = 0.001, normalization = 0.000186236, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000252478, limit = 0.001, normalization = 0.531731, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3620, time: 0.0003619 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3620 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.619000e-04 actual step time=3.620000e-04 actual total time=3.620000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000513 time avg. forc= 0.000020 largest residual force= 0.000069 in node 1280 and dof 2 largest increment of disp= 2.085235e-06 largest correction to disp= 9.209424e-07 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000513 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.085235e-06 largest correction to disp= 6.192129e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0472231, limit = 0.001, normalization = 0.000186065, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.68316, limit = 0.001, normalization = 0.569044, conv = false ---[precice]  iteration: 2 of 100, time-window: 3620, time: 0.0003619 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3620 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.619000e-04 actual step time=3.620000e-04 actual total time=3.620000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000500 time avg. forc= 0.000020 largest residual force= 0.000064 in node 1333 and dof 2 largest increment of disp= 2.085235e-06 largest correction to disp= 1.113041e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000500 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.085235e-06 largest correction to disp= 5.736052e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00699842, limit = 0.001, normalization = 0.000185687, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.151155, limit = 0.001, normalization = 0.170102, conv = false ---[precice]  iteration: 3 of 100, time-window: 3620, time: 0.0003619 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3620 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.619000e-04 actual step time=3.620000e-04 actual total time=3.620000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000500 time avg. forc= 0.000020 largest residual force= 0.000065 in node 1333 and dof 2 largest increment of disp= 2.085235e-06 largest correction to disp= 1.094063e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000500 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.085235e-06 largest correction to disp= 5.995915e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00093025, limit = 0.001, normalization = 0.000185689, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0158769, limit = 0.001, normalization = 0.165146, conv = false ---[precice]  iteration: 4 of 100, time-window: 3620, time: 0.0003619 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3620 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.619000e-04 actual step time=3.620000e-04 actual total time=3.620000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000500 time avg. forc= 0.000020 largest residual force= 0.000064 in node 1333 and dof 2 largest increment of disp= 2.085235e-06 largest correction to disp= 1.090627e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000500 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.085235e-06 largest correction to disp= 6.025925e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000266521, limit = 0.001, normalization = 0.000185687, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0141297, limit = 0.001, normalization = 0.165305, conv = false ---[precice]  iteration: 5 of 100, time-window: 3620, time: 0.0003619 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3620 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.619000e-04 actual step time=3.620000e-04 actual total time=3.620000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000500 time avg. forc= 0.000020 largest residual force= 0.000065 in node 1333 and dof 2 largest increment of disp= 2.085235e-06 largest correction to disp= 1.090558e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000500 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.085235e-06 largest correction to disp= 6.023895e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 8.16004e-05, limit = 0.001, normalization = 0.000185688, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00480716, limit = 0.001, normalization = 0.165159, conv = false ---[precice]  iteration: 6 of 100, time-window: 3620, time: 0.0003619 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3620 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.619000e-04 actual step time=3.620000e-04 actual total time=3.620000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000500 time avg. forc= 0.000020 largest residual force= 0.000065 in node 1333 and dof 2 largest increment of disp= 2.085235e-06 largest correction to disp= 1.090356e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000500 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.085235e-06 largest correction to disp= 6.024121e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.1046e-05, limit = 0.001, normalization = 0.000185688, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000285826, limit = 0.001, normalization = 0.165085, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3621, time: 0.000362 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3621 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.620000e-04 actual step time=3.621000e-04 actual total time=3.621000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000364 time avg. forc= 0.000020 largest residual force= 0.000046 in node 867 and dof 2 largest increment of disp= 4.491162e-06 largest correction to disp= 3.535915e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000364 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.491162e-06 largest correction to disp= 3.076369e-09 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0685026, limit = 0.001, normalization = 0.000185696, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.15794, limit = 0.001, normalization = 0.6313, conv = false ---[precice]  iteration: 2 of 100, time-window: 3621, time: 0.000362 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3621 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.620000e-04 actual step time=3.621000e-04 actual total time=3.621000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000020 largest residual force= 0.000024 in node 762 and dof 2 largest increment of disp= 4.491162e-06 largest correction to disp= 1.092200e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.491162e-06 largest correction to disp= 3.351163e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00492796, limit = 0.001, normalization = 0.000185973, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.164331, limit = 0.001, normalization = 0.496029, conv = false ---[precice]  iteration: 3 of 100, time-window: 3621, time: 0.000362 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3621 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.620000e-04 actual step time=3.621000e-04 actual total time=3.621000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000020 largest residual force= 0.000024 in node 762 and dof 2 largest increment of disp= 4.491162e-06 largest correction to disp= 1.088547e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.491162e-06 largest correction to disp= 3.420920e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000901358, limit = 0.001, normalization = 0.000185986, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00407314, limit = 0.001, normalization = 0.494157, conv = false ---[precice]  iteration: 4 of 100, time-window: 3621, time: 0.000362 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3621 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.620000e-04 actual step time=3.621000e-04 actual total time=3.621000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000020 largest residual force= 0.000024 in node 762 and dof 2 largest increment of disp= 4.491162e-06 largest correction to disp= 1.084406e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.491162e-06 largest correction to disp= 3.411466e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000384337, limit = 0.001, normalization = 0.000185987, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0203287, limit = 0.001, normalization = 0.493882, conv = false ---[precice]  iteration: 5 of 100, time-window: 3621, time: 0.000362 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3621 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.620000e-04 actual step time=3.621000e-04 actual total time=3.621000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000020 largest residual force= 0.000024 in node 762 and dof 2 largest increment of disp= 4.491162e-06 largest correction to disp= 1.083549e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000020 largest residual force= 0.000001 in node 1949 and dof 3 largest increment of disp= 4.491162e-06 largest correction to disp= 3.403717e-09 in node 1383 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1919 and dof 2 largest increment of disp= 4.491162e-06 largest correction to disp= 1.699834e-10 in node 1949 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000173083, limit = 0.001, normalization = 0.000185986, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00570094, limit = 0.001, normalization = 0.493908, conv = false ---[precice]  iteration: 6 of 100, time-window: 3621, time: 0.000362 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3621 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.620000e-04 actual step time=3.621000e-04 actual total time=3.621000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000020 largest residual force= 0.000024 in node 762 and dof 2 largest increment of disp= 4.491162e-06 largest correction to disp= 1.082658e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.491162e-06 largest correction to disp= 3.399971e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.7268e-05, limit = 0.001, normalization = 0.000185985, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00124935, limit = 0.001, normalization = 0.493942, conv = false ---[precice]  iteration: 7 of 100, time-window: 3621, time: 0.000362 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3621 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.620000e-04 actual step time=3.621000e-04 actual total time=3.621000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000020 largest residual force= 0.000024 in node 762 and dof 2 largest increment of disp= 4.491162e-06 largest correction to disp= 1.082787e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.491162e-06 largest correction to disp= 3.400862e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.03778e-05, limit = 0.001, normalization = 0.000185986, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 5.64952e-05, limit = 0.001, normalization = 0.493943, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3622, time: 0.0003621 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3622 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.621000e-04 actual step time=3.622000e-04 actual total time=3.622000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000418 time avg. forc= 0.000020 largest residual force= 0.000467 in node 535 and dof 2 largest increment of disp= 3.182521e-06 largest correction to disp= 2.150667e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000418 time avg. forc= 0.000020 largest residual force= 0.000013 in node 875 and dof 2 largest increment of disp= 3.182521e-06 largest correction to disp= 3.179154e-07 in node 542 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000418 time avg. forc= 0.000020 largest residual force= 0.000000 in node 875 and dof 2 largest increment of disp= 3.182521e-06 largest correction to disp= 2.781013e-09 in node 875 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0500502, limit = 0.001, normalization = 0.000186389, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.53393, limit = 0.001, normalization = 0.489705, conv = false ---[precice]  iteration: 2 of 100, time-window: 3622, time: 0.0003621 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3622 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.621000e-04 actual step time=3.622000e-04 actual total time=3.622000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000416 time avg. forc= 0.000020 largest residual force= 0.000036 in node 1279 and dof 2 largest increment of disp= 3.182521e-06 largest correction to disp= 1.983667e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000416 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.182521e-06 largest correction to disp= 4.485226e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0111844, limit = 0.001, normalization = 0.000186472, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.295452, limit = 0.001, normalization = 0.426849, conv = false ---[precice]  iteration: 3 of 100, time-window: 3622, time: 0.0003621 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3622 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.621000e-04 actual step time=3.622000e-04 actual total time=3.622000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000416 time avg. forc= 0.000020 largest residual force= 0.000036 in node 1333 and dof 2 largest increment of disp= 3.182521e-06 largest correction to disp= 1.973411e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000416 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.182521e-06 largest correction to disp= 4.472048e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00221697, limit = 0.001, normalization = 0.000186471, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0776524, limit = 0.001, normalization = 0.418244, conv = false ---[precice]  iteration: 4 of 100, time-window: 3622, time: 0.0003621 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3622 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.621000e-04 actual step time=3.622000e-04 actual total time=3.622000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000416 time avg. forc= 0.000020 largest residual force= 0.000036 in node 1333 and dof 2 largest increment of disp= 3.182521e-06 largest correction to disp= 1.955399e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000416 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.182521e-06 largest correction to disp= 4.514258e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000340186, limit = 0.001, normalization = 0.000186472, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.02049, limit = 0.001, normalization = 0.417051, conv = false ---[precice]  iteration: 5 of 100, time-window: 3622, time: 0.0003621 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3622 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.621000e-04 actual step time=3.622000e-04 actual total time=3.622000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000416 time avg. forc= 0.000020 largest residual force= 0.000036 in node 1333 and dof 2 largest increment of disp= 3.182521e-06 largest correction to disp= 1.956951e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000416 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.182521e-06 largest correction to disp= 4.502794e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000109272, limit = 0.001, normalization = 0.000186473, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00126247, limit = 0.001, normalization = 0.417136, conv = false ---[precice]  iteration: 6 of 100, time-window: 3622, time: 0.0003621 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3622 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.621000e-04 actual step time=3.622000e-04 actual total time=3.622000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000416 time avg. forc= 0.000020 largest residual force= 0.000036 in node 1333 and dof 2 largest increment of disp= 3.182521e-06 largest correction to disp= 1.956923e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000416 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.182521e-06 largest correction to disp= 4.502458e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.22868e-05, limit = 0.001, normalization = 0.000186473, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00106246, limit = 0.001, normalization = 0.417162, conv = false ---[precice]  iteration: 7 of 100, time-window: 3622, time: 0.0003621 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3622 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.621000e-04 actual step time=3.622000e-04 actual total time=3.622000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000416 time avg. forc= 0.000020 largest residual force= 0.000036 in node 1333 and dof 2 largest increment of disp= 3.182521e-06 largest correction to disp= 1.956916e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000416 time avg. forc= 0.000020 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.182521e-06 largest correction to disp= 4.502737e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.77656e-06, limit = 0.001, normalization = 0.000186473, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000141765, limit = 0.001, normalization = 0.417152, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3623, time: 0.0003622 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3623 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.622000e-04 actual step time=3.623000e-04 actual total time=3.623000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000523 time avg. forc= 0.000021 largest residual force= 0.000059 in node 1128 and dof 2 largest increment of disp= 3.651839e-06 largest correction to disp= 2.982906e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000523 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 3.651839e-06 largest correction to disp= 5.389913e-09 in node 1352 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0628212, limit = 0.001, normalization = 0.000186265, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.49958, limit = 0.001, normalization = 0.673791, conv = false ---[precice]  iteration: 2 of 100, time-window: 3623, time: 0.0003622 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3623 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.622000e-04 actual step time=3.623000e-04 actual total time=3.623000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000503 time avg. forc= 0.000021 largest residual force= 0.000060 in node 1128 and dof 2 largest increment of disp= 3.651839e-06 largest correction to disp= 8.800073e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000503 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 3.651839e-06 largest correction to disp= 6.093739e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00620922, limit = 0.001, normalization = 0.000185966, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.51322, limit = 0.001, normalization = 0.321481, conv = false ---[precice]  iteration: 3 of 100, time-window: 3623, time: 0.0003622 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3623 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.622000e-04 actual step time=3.623000e-04 actual total time=3.623000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000504 time avg. forc= 0.000021 largest residual force= 0.000060 in node 1128 and dof 2 largest increment of disp= 3.651839e-06 largest correction to disp= 8.805624e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000504 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 3.651839e-06 largest correction to disp= 6.153977e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00175562, limit = 0.001, normalization = 0.000185952, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.171086, limit = 0.001, normalization = 0.282905, conv = false ---[precice]  iteration: 4 of 100, time-window: 3623, time: 0.0003622 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3623 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.622000e-04 actual step time=3.623000e-04 actual total time=3.623000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000504 time avg. forc= 0.000021 largest residual force= 0.000060 in node 1128 and dof 2 largest increment of disp= 3.651839e-06 largest correction to disp= 8.817084e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000504 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 3.651839e-06 largest correction to disp= 6.141877e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000403423, limit = 0.001, normalization = 0.000185957, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0489138, limit = 0.001, normalization = 0.282637, conv = false ---[precice]  iteration: 5 of 100, time-window: 3623, time: 0.0003622 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3623 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.622000e-04 actual step time=3.623000e-04 actual total time=3.623000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000504 time avg. forc= 0.000021 largest residual force= 0.000060 in node 1128 and dof 2 largest increment of disp= 3.651839e-06 largest correction to disp= 8.821729e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000504 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 3.651839e-06 largest correction to disp= 6.130923e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 9.60394e-05, limit = 0.001, normalization = 0.00018596, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0136923, limit = 0.001, normalization = 0.282849, conv = false ---[precice]  iteration: 6 of 100, time-window: 3623, time: 0.0003622 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3623 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.622000e-04 actual step time=3.623000e-04 actual total time=3.623000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000504 time avg. forc= 0.000021 largest residual force= 0.000060 in node 1128 and dof 2 largest increment of disp= 3.651839e-06 largest correction to disp= 8.825437e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000504 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 3.651839e-06 largest correction to disp= 6.134963e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.07009e-05, limit = 0.001, normalization = 0.000185959, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000383103, limit = 0.001, normalization = 0.282839, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3624, time: 0.0003623 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3624 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.623000e-04 actual step time=3.624000e-04 actual total time=3.624000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000298 time avg. forc= 0.000021 largest residual force= 0.000052 in node 1079 and dof 2 largest increment of disp= 5.012042e-06 largest correction to disp= 3.472001e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000298 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 5.012042e-06 largest correction to disp= 4.182644e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0658802, limit = 0.001, normalization = 0.000186085, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.01741, limit = 0.001, normalization = 0.550164, conv = false ---[precice]  iteration: 2 of 100, time-window: 3624, time: 0.0003623 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3624 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.623000e-04 actual step time=3.624000e-04 actual total time=3.624000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000304 time avg. forc= 0.000021 largest residual force= 0.000031 in node 1699 and dof 2 largest increment of disp= 5.012042e-06 largest correction to disp= 1.788962e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000304 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 5.012042e-06 largest correction to disp= 3.066039e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00715527, limit = 0.001, normalization = 0.0001866, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.401795, limit = 0.001, normalization = 0.588385, conv = false ---[precice]  iteration: 3 of 100, time-window: 3624, time: 0.0003623 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3624 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.623000e-04 actual step time=3.624000e-04 actual total time=3.624000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000304 time avg. forc= 0.000021 largest residual force= 0.000031 in node 1699 and dof 2 largest increment of disp= 5.012042e-06 largest correction to disp= 1.840721e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000304 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 5.012042e-06 largest correction to disp= 2.736266e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00165662, limit = 0.001, normalization = 0.00018663, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00791538, limit = 0.001, normalization = 0.578227, conv = false ---[precice]  iteration: 4 of 100, time-window: 3624, time: 0.0003623 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3624 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.623000e-04 actual step time=3.624000e-04 actual total time=3.624000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000304 time avg. forc= 0.000021 largest residual force= 0.000031 in node 1699 and dof 2 largest increment of disp= 5.012042e-06 largest correction to disp= 1.830375e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000304 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 5.012042e-06 largest correction to disp= 2.710228e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000361486, limit = 0.001, normalization = 0.000186636, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00157042, limit = 0.001, normalization = 0.57858, conv = false ---[precice]  iteration: 5 of 100, time-window: 3624, time: 0.0003623 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3624 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.623000e-04 actual step time=3.624000e-04 actual total time=3.624000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000304 time avg. forc= 0.000021 largest residual force= 0.000031 in node 1699 and dof 2 largest increment of disp= 5.012042e-06 largest correction to disp= 1.830161e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000304 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 5.012042e-06 largest correction to disp= 2.718283e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00010948, limit = 0.001, normalization = 0.000186635, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00280505, limit = 0.001, normalization = 0.578261, conv = false ---[precice]  iteration: 6 of 100, time-window: 3624, time: 0.0003623 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3624 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.623000e-04 actual step time=3.624000e-04 actual total time=3.624000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000304 time avg. forc= 0.000021 largest residual force= 0.000031 in node 1699 and dof 2 largest increment of disp= 5.012042e-06 largest correction to disp= 1.830092e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000304 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 5.012042e-06 largest correction to disp= 2.722682e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.61185e-05, limit = 0.001, normalization = 0.000186634, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00117553, limit = 0.001, normalization = 0.578282, conv = false ---[precice]  iteration: 7 of 100, time-window: 3624, time: 0.0003623 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3624 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.623000e-04 actual step time=3.624000e-04 actual total time=3.624000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000304 time avg. forc= 0.000021 largest residual force= 0.000031 in node 1699 and dof 2 largest increment of disp= 5.012042e-06 largest correction to disp= 1.829988e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000304 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 5.012042e-06 largest correction to disp= 2.721414e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.76714e-06, limit = 0.001, normalization = 0.000186635, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 3.13643e-05, limit = 0.001, normalization = 0.57828, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3625, time: 0.0003624 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3625 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.624000e-04 actual step time=3.625000e-04 actual total time=3.625000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000554 time avg. forc= 0.000021 largest residual force= 0.000519 in node 155 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 9.994997e-07 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000554 time avg. forc= 0.000021 largest residual force= 0.000000 in node 195 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 4.540186e-08 in node 155 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0509791, limit = 0.001, normalization = 0.000186442, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.75166, limit = 0.001, normalization = 0.580021, conv = false ---[precice]  iteration: 2 of 100, time-window: 3625, time: 0.0003624 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3625 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.624000e-04 actual step time=3.625000e-04 actual total time=3.625000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000541 time avg. forc= 0.000021 largest residual force= 0.000078 in node 1333 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 1.197724e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000541 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 7.133226e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00894986, limit = 0.001, normalization = 0.000186011, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.111873, limit = 0.001, normalization = 0.182556, conv = false ---[precice]  iteration: 3 of 100, time-window: 3625, time: 0.0003624 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3625 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.624000e-04 actual step time=3.625000e-04 actual total time=3.625000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000541 time avg. forc= 0.000021 largest residual force= 0.001138 in node 497 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 1.198111e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000540 time avg. forc= 0.000021 largest residual force= 0.000007 in node 518 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 7.938634e-07 in node 519 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000540 time avg. forc= 0.000021 largest residual force= 0.000000 in node 518 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 1.555042e-10 in node 624 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00194013, limit = 0.001, normalization = 0.000186008, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.01759, limit = 0.001, normalization = 0.18305, conv = false ---[precice]  iteration: 4 of 100, time-window: 3625, time: 0.0003624 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3625 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.624000e-04 actual step time=3.625000e-04 actual total time=3.625000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000540 time avg. forc= 0.000021 largest residual force= 0.000078 in node 1333 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 1.206850e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000540 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 7.434929e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000379271, limit = 0.001, normalization = 0.000186005, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0500921, limit = 0.001, normalization = 0.184331, conv = false ---[precice]  iteration: 5 of 100, time-window: 3625, time: 0.0003624 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3625 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.624000e-04 actual step time=3.625000e-04 actual total time=3.625000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000540 time avg. forc= 0.000021 largest residual force= 0.000078 in node 1333 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 1.206062e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000540 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 7.434120e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000226588, limit = 0.001, normalization = 0.000186005, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0351241, limit = 0.001, normalization = 0.18419, conv = false ---[precice]  iteration: 6 of 100, time-window: 3625, time: 0.0003624 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3625 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.624000e-04 actual step time=3.625000e-04 actual total time=3.625000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000540 time avg. forc= 0.000021 largest residual force= 0.000078 in node 1333 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 1.204433e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000540 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 7.432430e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.77595e-05, limit = 0.001, normalization = 0.000186004, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00120192, limit = 0.001, normalization = 0.184122, conv = false ---[precice]  iteration: 7 of 100, time-window: 3625, time: 0.0003624 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3625 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.624000e-04 actual step time=3.625000e-04 actual total time=3.625000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000540 time avg. forc= 0.000021 largest residual force= 0.000078 in node 1333 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 1.204255e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000540 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 7.432428e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.41847e-06, limit = 0.001, normalization = 0.000186004, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00102761, limit = 0.001, normalization = 0.184055, conv = false ---[precice]  iteration: 8 of 100, time-window: 3625, time: 0.0003624 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3625 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.624000e-04 actual step time=3.625000e-04 actual total time=3.625000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000540 time avg. forc= 0.000021 largest residual force= 0.000078 in node 1333 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 1.204249e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000540 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.232142e-06 largest correction to disp= 7.432434e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.75987e-06, limit = 0.001, normalization = 0.000186004, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 9.25416e-05, limit = 0.001, normalization = 0.184043, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3626, time: 0.0003625 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3626 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.625000e-04 actual step time=3.626000e-04 actual total time=3.626000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000399 time avg. forc= 0.000021 largest residual force= 0.000054 in node 867 and dof 2 largest increment of disp= 4.846466e-06 largest correction to disp= 3.828317e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000399 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.846466e-06 largest correction to disp= 3.829259e-09 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0742358, limit = 0.001, normalization = 0.000185988, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.18054, limit = 0.001, normalization = 0.656498, conv = false ---[precice]  iteration: 2 of 100, time-window: 3626, time: 0.0003625 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3626 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.625000e-04 actual step time=3.626000e-04 actual total time=3.626000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000021 largest residual force= 0.000030 in node 957 and dof 2 largest increment of disp= 4.846466e-06 largest correction to disp= 1.180863e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.846466e-06 largest correction to disp= 4.251757e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00757099, limit = 0.001, normalization = 0.000186338, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.327275, limit = 0.001, normalization = 0.532293, conv = false ---[precice]  iteration: 3 of 100, time-window: 3626, time: 0.0003625 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3626 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.625000e-04 actual step time=3.626000e-04 actual total time=3.626000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000021 largest residual force= 0.000030 in node 957 and dof 2 largest increment of disp= 4.846466e-06 largest correction to disp= 1.155800e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.846466e-06 largest correction to disp= 4.132435e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00142206, limit = 0.001, normalization = 0.00018631, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0281544, limit = 0.001, normalization = 0.532019, conv = false ---[precice]  iteration: 4 of 100, time-window: 3626, time: 0.0003625 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3626 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.625000e-04 actual step time=3.626000e-04 actual total time=3.626000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000021 largest residual force= 0.000030 in node 957 and dof 2 largest increment of disp= 4.846466e-06 largest correction to disp= 1.154603e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.846466e-06 largest correction to disp= 4.153959e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000439812, limit = 0.001, normalization = 0.000186315, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.011707, limit = 0.001, normalization = 0.531956, conv = false ---[precice]  iteration: 5 of 100, time-window: 3626, time: 0.0003625 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3626 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.625000e-04 actual step time=3.626000e-04 actual total time=3.626000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000021 largest residual force= 0.000030 in node 957 and dof 2 largest increment of disp= 4.846466e-06 largest correction to disp= 1.154029e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.846466e-06 largest correction to disp= 4.145378e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000142653, limit = 0.001, normalization = 0.000186314, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00502978, limit = 0.001, normalization = 0.531924, conv = false ---[precice]  iteration: 6 of 100, time-window: 3626, time: 0.0003625 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3626 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.625000e-04 actual step time=3.626000e-04 actual total time=3.626000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000021 largest residual force= 0.000030 in node 957 and dof 2 largest increment of disp= 4.846466e-06 largest correction to disp= 1.153890e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000387 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 4.846466e-06 largest correction to disp= 4.141486e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.78685e-05, limit = 0.001, normalization = 0.000186313, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000378555, limit = 0.001, normalization = 0.531923, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3627, time: 0.0003626 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3627 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.626000e-04 actual step time=3.627000e-04 actual total time=3.627000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000449 time avg. forc= 0.000021 largest residual force= 0.000042 in node 1384 and dof 2 largest increment of disp= 3.531920e-06 largest correction to disp= 2.399092e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000449 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.531920e-06 largest correction to disp= 4.816490e-09 in node 1099 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0545852, limit = 0.001, normalization = 0.00018677, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.59087, limit = 0.001, normalization = 0.491101, conv = false ---[precice]  iteration: 2 of 100, time-window: 3627, time: 0.0003626 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3627 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.626000e-04 actual step time=3.627000e-04 actual total time=3.627000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000448 time avg. forc= 0.000021 largest residual force= 0.000042 in node 1279 and dof 2 largest increment of disp= 3.531920e-06 largest correction to disp= 2.123127e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000448 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.531920e-06 largest correction to disp= 5.222310e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00557166, limit = 0.001, normalization = 0.000186883, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.114695, limit = 0.001, normalization = 0.45824, conv = false ---[precice]  iteration: 3 of 100, time-window: 3627, time: 0.0003626 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3627 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.626000e-04 actual step time=3.627000e-04 actual total time=3.627000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000448 time avg. forc= 0.000021 largest residual force= 0.000041 in node 1279 and dof 2 largest increment of disp= 3.531920e-06 largest correction to disp= 2.147769e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000448 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.531920e-06 largest correction to disp= 5.066735e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00134269, limit = 0.001, normalization = 0.000186889, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0499549, limit = 0.001, normalization = 0.459107, conv = false ---[precice]  iteration: 4 of 100, time-window: 3627, time: 0.0003626 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3627 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.626000e-04 actual step time=3.627000e-04 actual total time=3.627000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000448 time avg. forc= 0.000021 largest residual force= 0.000041 in node 1279 and dof 2 largest increment of disp= 3.531920e-06 largest correction to disp= 2.142617e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000448 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.531920e-06 largest correction to disp= 5.094043e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00019061, limit = 0.001, normalization = 0.000186888, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.009439, limit = 0.001, normalization = 0.458541, conv = false ---[precice]  iteration: 5 of 100, time-window: 3627, time: 0.0003626 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3627 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.626000e-04 actual step time=3.627000e-04 actual total time=3.627000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000448 time avg. forc= 0.000021 largest residual force= 0.000042 in node 1279 and dof 2 largest increment of disp= 3.531920e-06 largest correction to disp= 2.140203e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000448 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.531920e-06 largest correction to disp= 5.107275e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.00091e-05, limit = 0.001, normalization = 0.000186887, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00133091, limit = 0.001, normalization = 0.458561, conv = false ---[precice]  iteration: 6 of 100, time-window: 3627, time: 0.0003626 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3627 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.626000e-04 actual step time=3.627000e-04 actual total time=3.627000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000448 time avg. forc= 0.000021 largest residual force= 0.000042 in node 1279 and dof 2 largest increment of disp= 3.531920e-06 largest correction to disp= 2.140338e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000448 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.531920e-06 largest correction to disp= 5.105305e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.47316e-05, limit = 0.001, normalization = 0.000186887, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000438771, limit = 0.001, normalization = 0.458534, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3628, time: 0.0003627 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3628 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.627000e-04 actual step time=3.628000e-04 actual total time=3.628000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000569 time avg. forc= 0.000021 largest residual force= 0.000068 in node 1128 and dof 2 largest increment of disp= 3.944565e-06 largest correction to disp= 3.212192e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000569 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 3.944565e-06 largest correction to disp= 6.228443e-09 in node 1352 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0677574, limit = 0.001, normalization = 0.000186631, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.54119, limit = 0.001, normalization = 0.700889, conv = false ---[precice]  iteration: 2 of 100, time-window: 3628, time: 0.0003627 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3628 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.627000e-04 actual step time=3.628000e-04 actual total time=3.628000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000549 time avg. forc= 0.000021 largest residual force= 0.000070 in node 1128 and dof 2 largest increment of disp= 3.944565e-06 largest correction to disp= 9.531966e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000549 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 3.944565e-06 largest correction to disp= 7.645452e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00905097, limit = 0.001, normalization = 0.000186202, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.261382, limit = 0.001, normalization = 0.325829, conv = false ---[precice]  iteration: 3 of 100, time-window: 3628, time: 0.0003627 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3628 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.627000e-04 actual step time=3.628000e-04 actual total time=3.628000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000548 time avg. forc= 0.000021 largest residual force= 0.000070 in node 1128 and dof 2 largest increment of disp= 3.944565e-06 largest correction to disp= 9.560461e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000548 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 3.944565e-06 largest correction to disp= 7.325664e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00141008, limit = 0.001, normalization = 0.000186251, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.215628, limit = 0.001, normalization = 0.299867, conv = false ---[precice]  iteration: 4 of 100, time-window: 3628, time: 0.0003627 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3628 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.627000e-04 actual step time=3.628000e-04 actual total time=3.628000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000548 time avg. forc= 0.000021 largest residual force= 0.000070 in node 1128 and dof 2 largest increment of disp= 3.944565e-06 largest correction to disp= 9.593123e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000548 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 3.944565e-06 largest correction to disp= 7.307989e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000733202, limit = 0.001, normalization = 0.000186258, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00163841, limit = 0.001, normalization = 0.299883, conv = false ---[precice]  iteration: 5 of 100, time-window: 3628, time: 0.0003627 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3628 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.627000e-04 actual step time=3.628000e-04 actual total time=3.628000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000548 time avg. forc= 0.000021 largest residual force= 0.000486 in node 1632 and dof 2 largest increment of disp= 3.944565e-06 largest correction to disp= 9.586169e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000548 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1653 and dof 2 largest increment of disp= 3.944565e-06 largest correction to disp= 1.821851e-07 in node 1632 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00014041, limit = 0.001, normalization = 0.000186258, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00369203, limit = 0.001, normalization = 0.299857, conv = false ---[precice]  iteration: 6 of 100, time-window: 3628, time: 0.0003627 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3628 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.627000e-04 actual step time=3.628000e-04 actual total time=3.628000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000548 time avg. forc= 0.000021 largest residual force= 0.000070 in node 1128 and dof 2 largest increment of disp= 3.944565e-06 largest correction to disp= 9.584853e-07 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000548 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 3.944565e-06 largest correction to disp= 7.306459e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.77566e-05, limit = 0.001, normalization = 0.000186258, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000344314, limit = 0.001, normalization = 0.299773, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3629, time: 0.0003628 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3629 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.628000e-04 actual step time=3.629000e-04 actual total time=3.629000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000321 time avg. forc= 0.000021 largest residual force= 0.000062 in node 1079 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 3.780432e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000321 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 4.897663e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0717558, limit = 0.001, normalization = 0.000186405, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.01369, limit = 0.001, normalization = 0.565258, conv = false ---[precice]  iteration: 2 of 100, time-window: 3629, time: 0.0003628 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3629 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.628000e-04 actual step time=3.629000e-04 actual total time=3.629000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000327 time avg. forc= 0.000021 largest residual force= 0.000036 in node 1699 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 1.958306e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000327 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 3.324677e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00538256, limit = 0.001, normalization = 0.000187034, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.283415, limit = 0.001, normalization = 0.645687, conv = false ---[precice]  iteration: 3 of 100, time-window: 3629, time: 0.0003628 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3629 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.628000e-04 actual step time=3.629000e-04 actual total time=3.629000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000328 time avg. forc= 0.000021 largest residual force= 0.002673 in node 1089 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 3.079292e-06 in node 1075 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000328 time avg. forc= 0.000021 largest residual force= 0.000063 in node 1089 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 2.261160e-06 in node 1085 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000328 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1089 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 4.794570e-09 in node 1089 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00201461, limit = 0.001, normalization = 0.000187064, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0531038, limit = 0.001, normalization = 0.629951, conv = false ---[precice]  iteration: 4 of 100, time-window: 3629, time: 0.0003628 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3629 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.628000e-04 actual step time=3.629000e-04 actual total time=3.629000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000328 time avg. forc= 0.000021 largest residual force= 0.000036 in node 1699 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 1.969940e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000328 time avg. forc= 0.000021 largest residual force= 0.000002 in node 1105 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 3.114295e-09 in node 1598 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000328 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1104 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 1.025259e-09 in node 1148 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000802231, limit = 0.001, normalization = 0.000187055, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00129479, limit = 0.001, normalization = 0.62911, conv = false ---[precice]  iteration: 5 of 100, time-window: 3629, time: 0.0003628 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3629 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.628000e-04 actual step time=3.629000e-04 actual total time=3.629000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000328 time avg. forc= 0.000021 largest residual force= 0.000036 in node 1699 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 1.962463e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000328 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 3.147312e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000216448, limit = 0.001, normalization = 0.000187056, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00217209, limit = 0.001, normalization = 0.628695, conv = false ---[precice]  iteration: 6 of 100, time-window: 3629, time: 0.0003628 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3629 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.628000e-04 actual step time=3.629000e-04 actual total time=3.629000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000328 time avg. forc= 0.000021 largest residual force= 0.000036 in node 1699 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 1.962933e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000328 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 3.136262e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.79802e-05, limit = 0.001, normalization = 0.000187057, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.001401, limit = 0.001, normalization = 0.628861, conv = false ---[precice]  iteration: 7 of 100, time-window: 3629, time: 0.0003628 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3629 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.628000e-04 actual step time=3.629000e-04 actual total time=3.629000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000328 time avg. forc= 0.000021 largest residual force= 0.000036 in node 1699 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 1.963111e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000328 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 5.457457e-06 largest correction to disp= 3.139363e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 9.54284e-06, limit = 0.001, normalization = 0.000187056, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000298073, limit = 0.001, normalization = 0.62885, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3630, time: 0.0003629 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3630 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.629000e-04 actual step time=3.630000e-04 actual total time=3.630000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000599 time avg. forc= 0.000021 largest residual force= 0.000093 in node 1280 and dof 2 largest increment of disp= 2.377152e-06 largest correction to disp= 1.094105e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000599 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.377152e-06 largest correction to disp= 9.652807e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0550589, limit = 0.001, normalization = 0.000186842, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.82224, limit = 0.001, normalization = 0.59321, conv = false ---[precice]  iteration: 2 of 100, time-window: 3630, time: 0.0003629 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3630 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.629000e-04 actual step time=3.630000e-04 actual total time=3.630000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000584 time avg. forc= 0.000021 largest residual force= 0.000090 in node 1333 and dof 2 largest increment of disp= 2.377152e-06 largest correction to disp= 1.556130e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000584 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.377152e-06 largest correction to disp= 8.646653e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0183446, limit = 0.001, normalization = 0.000186212, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.59016, limit = 0.001, normalization = 0.209568, conv = false ---[precice]  iteration: 3 of 100, time-window: 3630, time: 0.0003629 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3630 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.629000e-04 actual step time=3.630000e-04 actual total time=3.630000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000585 time avg. forc= 0.000021 largest residual force= 0.000090 in node 1333 and dof 2 largest increment of disp= 2.377152e-06 largest correction to disp= 1.332901e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000585 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.377152e-06 largest correction to disp= 9.361520e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00216697, limit = 0.001, normalization = 0.000186337, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0547923, limit = 0.001, normalization = 0.205289, conv = false ---[precice]  iteration: 4 of 100, time-window: 3630, time: 0.0003629 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3630 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.629000e-04 actual step time=3.630000e-04 actual total time=3.630000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000585 time avg. forc= 0.000021 largest residual force= 0.000090 in node 1333 and dof 2 largest increment of disp= 2.377152e-06 largest correction to disp= 1.341941e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000585 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.377152e-06 largest correction to disp= 9.347441e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000896764, limit = 0.001, normalization = 0.000186333, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00754925, limit = 0.001, normalization = 0.205193, conv = false ---[precice]  iteration: 5 of 100, time-window: 3630, time: 0.0003629 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3630 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.629000e-04 actual step time=3.630000e-04 actual total time=3.630000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000585 time avg. forc= 0.000021 largest residual force= 0.000090 in node 1333 and dof 2 largest increment of disp= 2.377152e-06 largest correction to disp= 1.343099e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000585 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.377152e-06 largest correction to disp= 9.345058e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000176856, limit = 0.001, normalization = 0.000186333, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00587861, limit = 0.001, normalization = 0.205073, conv = false ---[precice]  iteration: 6 of 100, time-window: 3630, time: 0.0003629 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3630 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.629000e-04 actual step time=3.630000e-04 actual total time=3.630000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000585 time avg. forc= 0.000021 largest residual force= 0.000090 in node 1333 and dof 2 largest increment of disp= 2.377152e-06 largest correction to disp= 1.342423e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000585 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.377152e-06 largest correction to disp= 9.342994e-09 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.28897e-05, limit = 0.001, normalization = 0.000186333, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000489064, limit = 0.001, normalization = 0.205391, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3631, time: 0.000363 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3631 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.630000e-04 actual step time=3.631000e-04 actual total time=3.631000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000438 time avg. forc= 0.000021 largest residual force= 0.000064 in node 867 and dof 2 largest increment of disp= 5.241972e-06 largest correction to disp= 4.158751e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000438 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1564 and dof 2 largest increment of disp= 5.241972e-06 largest correction to disp= 4.488568e-09 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0804415, limit = 0.001, normalization = 0.000186287, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.20552, limit = 0.001, normalization = 0.682921, conv = false ---[precice]  iteration: 2 of 100, time-window: 3631, time: 0.000363 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3631 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.630000e-04 actual step time=3.631000e-04 actual total time=3.631000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000424 time avg. forc= 0.000021 largest residual force= 0.000035 in node 957 and dof 2 largest increment of disp= 5.241972e-06 largest correction to disp= 1.288428e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000424 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 5.241972e-06 largest correction to disp= 5.091904e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0169992, limit = 0.001, normalization = 0.000186624, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0434178, limit = 0.001, normalization = 0.573351, conv = false ---[precice]  iteration: 3 of 100, time-window: 3631, time: 0.000363 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3631 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.630000e-04 actual step time=3.631000e-04 actual total time=3.631000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000424 time avg. forc= 0.000021 largest residual force= 0.000035 in node 957 and dof 2 largest increment of disp= 5.241972e-06 largest correction to disp= 1.241812e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000424 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 5.241972e-06 largest correction to disp= 5.046950e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00397637, limit = 0.001, normalization = 0.000186647, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0737565, limit = 0.001, normalization = 0.573799, conv = false ---[precice]  iteration: 4 of 100, time-window: 3631, time: 0.000363 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3631 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.630000e-04 actual step time=3.631000e-04 actual total time=3.631000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000424 time avg. forc= 0.000021 largest residual force= 0.000035 in node 957 and dof 2 largest increment of disp= 5.241972e-06 largest correction to disp= 1.242971e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000424 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 5.241972e-06 largest correction to disp= 5.083433e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00036396, limit = 0.001, normalization = 0.000186651, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0069543, limit = 0.001, normalization = 0.573001, conv = false ---[precice]  iteration: 5 of 100, time-window: 3631, time: 0.000363 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3631 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.630000e-04 actual step time=3.631000e-04 actual total time=3.631000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000424 time avg. forc= 0.000021 largest residual force= 0.000035 in node 957 and dof 2 largest increment of disp= 5.241972e-06 largest correction to disp= 1.242196e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000424 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 5.241972e-06 largest correction to disp= 5.080049e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000125008, limit = 0.001, normalization = 0.000186651, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00224515, limit = 0.001, normalization = 0.572761, conv = false ---[precice]  iteration: 6 of 100, time-window: 3631, time: 0.000363 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3631 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.630000e-04 actual step time=3.631000e-04 actual total time=3.631000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000424 time avg. forc= 0.000021 largest residual force= 0.000035 in node 957 and dof 2 largest increment of disp= 5.241972e-06 largest correction to disp= 1.242216e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000424 time avg. forc= 0.000021 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 5.241972e-06 largest correction to disp= 5.077889e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.60262e-05, limit = 0.001, normalization = 0.000186651, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000984025, limit = 0.001, normalization = 0.572741, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3632, time: 0.0003631 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3632 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.631000e-04 actual step time=3.632000e-04 actual total time=3.632000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000482 time avg. forc= 0.000022 largest residual force= 0.000051 in node 1384 and dof 2 largest increment of disp= 3.904622e-06 largest correction to disp= 2.654550e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000482 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.904622e-06 largest correction to disp= 5.774931e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0595487, limit = 0.001, normalization = 0.000187169, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.65931, limit = 0.001, normalization = 0.49017, conv = false ---[precice]  iteration: 2 of 100, time-window: 3632, time: 0.0003631 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3632 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.631000e-04 actual step time=3.632000e-04 actual total time=3.632000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000483 time avg. forc= 0.000022 largest residual force= 0.000054 in node 1279 and dof 2 largest increment of disp= 3.904622e-06 largest correction to disp= 2.327196e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000483 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.904622e-06 largest correction to disp= 6.933066e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0223653, limit = 0.001, normalization = 0.000187229, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.690311, limit = 0.001, normalization = 0.513776, conv = false ---[precice]  iteration: 3 of 100, time-window: 3632, time: 0.0003631 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3632 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.631000e-04 actual step time=3.632000e-04 actual total time=3.632000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000481 time avg. forc= 0.000022 largest residual force= 0.000049 in node 1279 and dof 2 largest increment of disp= 3.904622e-06 largest correction to disp= 2.322685e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000481 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.904622e-06 largest correction to disp= 6.004710e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00644704, limit = 0.001, normalization = 0.000187337, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0395677, limit = 0.001, normalization = 0.504377, conv = false ---[precice]  iteration: 4 of 100, time-window: 3632, time: 0.0003631 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3632 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.631000e-04 actual step time=3.632000e-04 actual total time=3.632000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000481 time avg. forc= 0.000022 largest residual force= 0.000049 in node 1279 and dof 2 largest increment of disp= 3.904622e-06 largest correction to disp= 2.331458e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000481 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.904622e-06 largest correction to disp= 6.007434e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00118815, limit = 0.001, normalization = 0.000187334, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.029898, limit = 0.001, normalization = 0.503781, conv = false ---[precice]  iteration: 5 of 100, time-window: 3632, time: 0.0003631 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3632 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.631000e-04 actual step time=3.632000e-04 actual total time=3.632000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000481 time avg. forc= 0.000022 largest residual force= 0.000049 in node 1279 and dof 2 largest increment of disp= 3.904622e-06 largest correction to disp= 2.327284e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000481 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.904622e-06 largest correction to disp= 6.060253e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000214045, limit = 0.001, normalization = 0.000187328, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0060944, limit = 0.001, normalization = 0.503973, conv = false ---[precice]  iteration: 6 of 100, time-window: 3632, time: 0.0003631 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3632 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.631000e-04 actual step time=3.632000e-04 actual total time=3.632000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000481 time avg. forc= 0.000022 largest residual force= 0.000049 in node 1279 and dof 2 largest increment of disp= 3.904622e-06 largest correction to disp= 2.327810e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000481 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.904622e-06 largest correction to disp= 6.058073e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.34798e-05, limit = 0.001, normalization = 0.000187328, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.004343, limit = 0.001, normalization = 0.503995, conv = false ---[precice]  iteration: 7 of 100, time-window: 3632, time: 0.0003631 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3632 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.631000e-04 actual step time=3.632000e-04 actual total time=3.632000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000481 time avg. forc= 0.000022 largest residual force= 0.000049 in node 1279 and dof 2 largest increment of disp= 3.904622e-06 largest correction to disp= 2.328050e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000481 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 3.904622e-06 largest correction to disp= 6.053265e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.29417e-05, limit = 0.001, normalization = 0.000187329, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000409704, limit = 0.001, normalization = 0.503993, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3633, time: 0.0003632 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3633 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.632000e-04 actual step time=3.633000e-04 actual total time=3.633000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000620 time avg. forc= 0.000022 largest residual force= 0.000083 in node 1128 and dof 2 largest increment of disp= 4.251207e-06 largest correction to disp= 3.448314e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000620 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1990 and dof 1 largest increment of disp= 4.251207e-06 largest correction to disp= 7.595461e-09 in node 1352 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0730771, limit = 0.001, normalization = 0.000187018, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.58273, limit = 0.001, normalization = 0.731487, conv = false ---[precice]  iteration: 2 of 100, time-window: 3633, time: 0.0003632 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3633 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.632000e-04 actual step time=3.633000e-04 actual total time=3.633000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000597 time avg. forc= 0.000022 largest residual force= 0.000086 in node 1128 and dof 2 largest increment of disp= 4.251207e-06 largest correction to disp= 1.049688e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000597 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 4.251207e-06 largest correction to disp= 8.618192e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00830303, limit = 0.001, normalization = 0.000186585, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.416522, limit = 0.001, normalization = 0.322633, conv = false ---[precice]  iteration: 3 of 100, time-window: 3633, time: 0.0003632 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3633 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.632000e-04 actual step time=3.633000e-04 actual total time=3.633000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000597 time avg. forc= 0.000022 largest residual force= 0.000086 in node 1128 and dof 2 largest increment of disp= 4.251207e-06 largest correction to disp= 1.036831e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000597 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1384 and dof 2 largest increment of disp= 4.251207e-06 largest correction to disp= 1.401030e-08 in node 1384 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00104821, limit = 0.001, normalization = 0.000186566, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0260067, limit = 0.001, normalization = 0.317151, conv = false ---[precice]  iteration: 4 of 100, time-window: 3633, time: 0.0003632 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3633 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.632000e-04 actual step time=3.633000e-04 actual total time=3.633000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000597 time avg. forc= 0.000022 largest residual force= 0.000086 in node 1128 and dof 2 largest increment of disp= 4.251207e-06 largest correction to disp= 1.036734e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000597 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 4.251207e-06 largest correction to disp= 8.661247e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000282722, limit = 0.001, normalization = 0.000186564, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0080714, limit = 0.001, normalization = 0.317734, conv = false ---[precice]  iteration: 5 of 100, time-window: 3633, time: 0.0003632 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3633 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.632000e-04 actual step time=3.633000e-04 actual total time=3.633000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000597 time avg. forc= 0.000022 largest residual force= 0.000086 in node 1128 and dof 2 largest increment of disp= 4.251207e-06 largest correction to disp= 1.036305e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000597 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 4.251207e-06 largest correction to disp= 8.659011e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.26708e-05, limit = 0.001, normalization = 0.000186564, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0014053, limit = 0.001, normalization = 0.317619, conv = false ---[precice]  iteration: 6 of 100, time-window: 3633, time: 0.0003632 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3633 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.632000e-04 actual step time=3.633000e-04 actual total time=3.633000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000597 time avg. forc= 0.000022 largest residual force= 0.000086 in node 1128 and dof 2 largest increment of disp= 4.251207e-06 largest correction to disp= 1.036250e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000597 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 4.251207e-06 largest correction to disp= 8.660805e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.34586e-05, limit = 0.001, normalization = 0.000186564, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000320472, limit = 0.001, normalization = 0.317649, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3634, time: 0.0003633 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3634 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.633000e-04 actual step time=3.634000e-04 actual total time=3.634000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000346 time avg. forc= 0.000022 largest residual force= 0.000074 in node 1079 and dof 2 largest increment of disp= 5.947919e-06 largest correction to disp= 4.121622e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000346 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 5.947919e-06 largest correction to disp= 6.161382e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0781579, limit = 0.001, normalization = 0.000186735, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.01075, limit = 0.001, normalization = 0.578527, conv = false ---[precice]  iteration: 2 of 100, time-window: 3634, time: 0.0003633 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3634 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.633000e-04 actual step time=3.634000e-04 actual total time=3.634000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000022 largest residual force= 0.000043 in node 1699 and dof 2 largest increment of disp= 5.947919e-06 largest correction to disp= 2.147755e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 5.947919e-06 largest correction to disp= 4.097502e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.007878, limit = 0.001, normalization = 0.000187497, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.421727, limit = 0.001, normalization = 0.772658, conv = false ---[precice]  iteration: 3 of 100, time-window: 3634, time: 0.0003633 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3634 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.633000e-04 actual step time=3.634000e-04 actual total time=3.634000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000022 largest residual force= 0.001155 in node 347 and dof 2 largest increment of disp= 5.947919e-06 largest correction to disp= 2.144118e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000022 largest residual force= 0.000002 in node 346 and dof 2 largest increment of disp= 5.947919e-06 largest correction to disp= 4.051441e-07 in node 347 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000022 largest residual force= 0.000000 in node 61 and dof 2 largest increment of disp= 5.947919e-06 largest correction to disp= 4.746696e-11 in node 61 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00370693, limit = 0.001, normalization = 0.000187514, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0149856, limit = 0.001, normalization = 0.690985, conv = false ---[precice]  iteration: 4 of 100, time-window: 3634, time: 0.0003633 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3634 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.633000e-04 actual step time=3.634000e-04 actual total time=3.634000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000022 largest residual force= 0.000042 in node 1699 and dof 2 largest increment of disp= 5.947919e-06 largest correction to disp= 2.108392e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 5.947919e-06 largest correction to disp= 4.003291e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0010368, limit = 0.001, normalization = 0.00018751, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00357574, limit = 0.001, normalization = 0.684193, conv = false ---[precice]  iteration: 5 of 100, time-window: 3634, time: 0.0003633 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3634 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.633000e-04 actual step time=3.634000e-04 actual total time=3.634000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000022 largest residual force= 0.000042 in node 1699 and dof 2 largest increment of disp= 5.947919e-06 largest correction to disp= 2.112383e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 5.947919e-06 largest correction to disp= 4.030474e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000299367, limit = 0.001, normalization = 0.000187505, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00850225, limit = 0.001, normalization = 0.683876, conv = false ---[precice]  iteration: 6 of 100, time-window: 3634, time: 0.0003633 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3634 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.633000e-04 actual step time=3.634000e-04 actual total time=3.634000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000022 largest residual force= 0.000042 in node 1699 and dof 2 largest increment of disp= 5.947919e-06 largest correction to disp= 2.111501e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 5.947919e-06 largest correction to disp= 4.021611e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000109958, limit = 0.001, normalization = 0.000187505, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00487118, limit = 0.001, normalization = 0.683841, conv = false ---[precice]  iteration: 7 of 100, time-window: 3634, time: 0.0003633 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3634 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.633000e-04 actual step time=3.634000e-04 actual total time=3.634000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000022 largest residual force= 0.000042 in node 1699 and dof 2 largest increment of disp= 5.947919e-06 largest correction to disp= 2.111367e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000353 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 5.947919e-06 largest correction to disp= 4.014456e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.71251e-05, limit = 0.001, normalization = 0.000187506, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00026193, limit = 0.001, normalization = 0.683788, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3635, time: 0.0003634 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3635 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.634000e-04 actual step time=3.635000e-04 actual total time=3.635000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000648 time avg. forc= 0.000022 largest residual force= 0.000108 in node 1280 and dof 2 largest increment of disp= 2.546040e-06 largest correction to disp= 1.192278e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000648 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.546040e-06 largest correction to disp= 1.205403e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0594811, limit = 0.001, normalization = 0.000187267, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.89727, limit = 0.001, normalization = 0.607442, conv = false ---[precice]  iteration: 2 of 100, time-window: 3635, time: 0.0003634 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3635 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.634000e-04 actual step time=3.635000e-04 actual total time=3.635000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000634 time avg. forc= 0.000022 largest residual force= 0.000109 in node 1333 and dof 2 largest increment of disp= 2.546040e-06 largest correction to disp= 1.431729e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000634 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.546040e-06 largest correction to disp= 1.094765e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0172953, limit = 0.001, normalization = 0.0001868, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.79286, limit = 0.001, normalization = 0.227904, conv = false ---[precice]  iteration: 3 of 100, time-window: 3635, time: 0.0003634 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3635 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.634000e-04 actual step time=3.635000e-04 actual total time=3.635000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000633 time avg. forc= 0.000022 largest residual force= 0.000109 in node 1333 and dof 2 largest increment of disp= 2.546040e-06 largest correction to disp= 1.504972e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000633 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.546040e-06 largest correction to disp= 1.144766e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00306636, limit = 0.001, normalization = 0.000186687, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.134572, limit = 0.001, normalization = 0.227722, conv = false ---[precice]  iteration: 4 of 100, time-window: 3635, time: 0.0003634 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3635 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.634000e-04 actual step time=3.635000e-04 actual total time=3.635000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000633 time avg. forc= 0.000022 largest residual force= 0.000108 in node 1333 and dof 2 largest increment of disp= 2.546040e-06 largest correction to disp= 1.486309e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000633 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.546040e-06 largest correction to disp= 1.162773e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000683652, limit = 0.001, normalization = 0.000186679, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00419201, limit = 0.001, normalization = 0.228875, conv = false ---[precice]  iteration: 5 of 100, time-window: 3635, time: 0.0003634 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3635 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.634000e-04 actual step time=3.635000e-04 actual total time=3.635000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000633 time avg. forc= 0.000022 largest residual force= 0.000108 in node 1333 and dof 2 largest increment of disp= 2.546040e-06 largest correction to disp= 1.488212e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000633 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.546040e-06 largest correction to disp= 1.163034e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000161827, limit = 0.001, normalization = 0.000186678, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0090467, limit = 0.001, normalization = 0.229687, conv = false ---[precice]  iteration: 6 of 100, time-window: 3635, time: 0.0003634 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3635 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.634000e-04 actual step time=3.635000e-04 actual total time=3.635000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000633 time avg. forc= 0.000022 largest residual force= 0.000108 in node 1333 and dof 2 largest increment of disp= 2.546040e-06 largest correction to disp= 1.488562e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000633 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.546040e-06 largest correction to disp= 1.163051e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.11647e-05, limit = 0.001, normalization = 0.000186678, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000816841, limit = 0.001, normalization = 0.229343, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3636, time: 0.0003635 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3636 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.635000e-04 actual step time=3.636000e-04 actual total time=3.636000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000481 time avg. forc= 0.000022 largest residual force= 0.000075 in node 867 and dof 2 largest increment of disp= 5.664469e-06 largest correction to disp= 4.508674e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000481 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 5.664469e-06 largest correction to disp= 5.558654e-09 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0871756, limit = 0.001, normalization = 0.000186593, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.22894, limit = 0.001, normalization = 0.717854, conv = false ---[precice]  iteration: 2 of 100, time-window: 3636, time: 0.0003635 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3636 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.635000e-04 actual step time=3.636000e-04 actual total time=3.636000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000466 time avg. forc= 0.000022 largest residual force= 0.000044 in node 957 and dof 2 largest increment of disp= 5.664469e-06 largest correction to disp= 1.317717e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000466 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 5.664469e-06 largest correction to disp= 6.176116e-09 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0102294, limit = 0.001, normalization = 0.000186934, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.567169, limit = 0.001, normalization = 0.625461, conv = false ---[precice]  iteration: 3 of 100, time-window: 3636, time: 0.0003635 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3636 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.635000e-04 actual step time=3.636000e-04 actual total time=3.636000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000465 time avg. forc= 0.000022 largest residual force= 0.000044 in node 957 and dof 2 largest increment of disp= 5.664469e-06 largest correction to disp= 1.330484e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000465 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 5.664469e-06 largest correction to disp= 6.188876e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00198181, limit = 0.001, normalization = 0.000186998, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0266689, limit = 0.001, normalization = 0.616446, conv = false ---[precice]  iteration: 4 of 100, time-window: 3636, time: 0.0003635 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3636 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.635000e-04 actual step time=3.636000e-04 actual total time=3.636000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000465 time avg. forc= 0.000022 largest residual force= 0.000044 in node 957 and dof 2 largest increment of disp= 5.664469e-06 largest correction to disp= 1.328979e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000465 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 5.664469e-06 largest correction to disp= 6.186467e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000679994, limit = 0.001, normalization = 0.000187, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00419024, limit = 0.001, normalization = 0.616696, conv = false ---[precice]  iteration: 5 of 100, time-window: 3636, time: 0.0003635 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3636 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.635000e-04 actual step time=3.636000e-04 actual total time=3.636000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000465 time avg. forc= 0.000022 largest residual force= 0.000044 in node 957 and dof 2 largest increment of disp= 5.664469e-06 largest correction to disp= 1.330527e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000465 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 5.664469e-06 largest correction to disp= 6.182438e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000248843, limit = 0.001, normalization = 0.000186999, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00345409, limit = 0.001, normalization = 0.616623, conv = false ---[precice]  iteration: 6 of 100, time-window: 3636, time: 0.0003635 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3636 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.635000e-04 actual step time=3.636000e-04 actual total time=3.636000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000465 time avg. forc= 0.000022 largest residual force= 0.000044 in node 957 and dof 2 largest increment of disp= 5.664469e-06 largest correction to disp= 1.330004e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000465 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 5.664469e-06 largest correction to disp= 6.187683e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.55371e-05, limit = 0.001, normalization = 0.000186999, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00015876, limit = 0.001, normalization = 0.616642, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3637, time: 0.0003636 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3637 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.636000e-04 actual step time=3.637000e-04 actual total time=3.637000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000518 time avg. forc= 0.000022 largest residual force= 0.000061 in node 1384 and dof 2 largest increment of disp= 4.319073e-06 largest correction to disp= 2.941585e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000518 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 4.319073e-06 largest correction to disp= 6.599847e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0649811, limit = 0.001, normalization = 0.000187591, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.71214, limit = 0.001, normalization = 0.497904, conv = false ---[precice]  iteration: 2 of 100, time-window: 3637, time: 0.0003636 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3637 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.636000e-04 actual step time=3.637000e-04 actual total time=3.637000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000518 time avg. forc= 0.000022 largest residual force= 0.000058 in node 1279 and dof 2 largest increment of disp= 4.319073e-06 largest correction to disp= 2.535874e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000518 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 4.319073e-06 largest correction to disp= 6.923379e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0102697, limit = 0.001, normalization = 0.000187801, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.362322, limit = 0.001, normalization = 0.579008, conv = false ---[precice]  iteration: 3 of 100, time-window: 3637, time: 0.0003636 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3637 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.636000e-04 actual step time=3.637000e-04 actual total time=3.637000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000518 time avg. forc= 0.000022 largest residual force= 0.000056 in node 1279 and dof 2 largest increment of disp= 4.319073e-06 largest correction to disp= 2.543268e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000517 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 4.319073e-06 largest correction to disp= 6.716127e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0024614, limit = 0.001, normalization = 0.00018782, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.103067, limit = 0.001, normalization = 0.553592, conv = false ---[precice]  iteration: 4 of 100, time-window: 3637, time: 0.0003636 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3637 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.636000e-04 actual step time=3.637000e-04 actual total time=3.637000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000518 time avg. forc= 0.000022 largest residual force= 0.000057 in node 1279 and dof 2 largest increment of disp= 4.319073e-06 largest correction to disp= 2.538417e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000518 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 4.319073e-06 largest correction to disp= 6.861590e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000787552, limit = 0.001, normalization = 0.000187807, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.036848, limit = 0.001, normalization = 0.553988, conv = false ---[precice]  iteration: 5 of 100, time-window: 3637, time: 0.0003636 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3637 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.636000e-04 actual step time=3.637000e-04 actual total time=3.637000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000518 time avg. forc= 0.000022 largest residual force= 0.000057 in node 1279 and dof 2 largest increment of disp= 4.319073e-06 largest correction to disp= 2.537017e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000518 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 4.319073e-06 largest correction to disp= 6.882817e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000211093, limit = 0.001, normalization = 0.000187805, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0074457, limit = 0.001, normalization = 0.553837, conv = false ---[precice]  iteration: 6 of 100, time-window: 3637, time: 0.0003636 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3637 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.636000e-04 actual step time=3.637000e-04 actual total time=3.637000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000518 time avg. forc= 0.000022 largest residual force= 0.000057 in node 1279 and dof 2 largest increment of disp= 4.319073e-06 largest correction to disp= 2.536729e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000518 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 4.319073e-06 largest correction to disp= 6.892976e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.15735e-05, limit = 0.001, normalization = 0.000187804, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000413957, limit = 0.001, normalization = 0.553842, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3638, time: 0.0003637 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3638 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.637000e-04 actual step time=3.638000e-04 actual total time=3.638000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000675 time avg. forc= 0.000022 largest residual force= 0.000747 in node 1126 and dof 1 largest increment of disp= 4.580102e-06 largest correction to disp= 3.702878e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000675 time avg. forc= 0.000022 largest residual force= 0.000002 in node 1147 and dof 2 largest increment of disp= 4.580102e-06 largest correction to disp= 1.848182e-07 in node 1147 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000675 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1147 and dof 2 largest increment of disp= 4.580102e-06 largest correction to disp= 6.453285e-11 in node 1021 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0788097, limit = 0.001, normalization = 0.00018743, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.6248, limit = 0.001, normalization = 0.764438, conv = false ---[precice]  iteration: 2 of 100, time-window: 3638, time: 0.0003637 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3638 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.637000e-04 actual step time=3.638000e-04 actual total time=3.638000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000651 time avg. forc= 0.000022 largest residual force= 0.000101 in node 1128 and dof 2 largest increment of disp= 4.580102e-06 largest correction to disp= 1.124679e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000651 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 4.580102e-06 largest correction to disp= 1.018388e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00558007, limit = 0.001, normalization = 0.000186894, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.517691, limit = 0.001, normalization = 0.363543, conv = false ---[precice]  iteration: 3 of 100, time-window: 3638, time: 0.0003637 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3638 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.637000e-04 actual step time=3.638000e-04 actual total time=3.638000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000651 time avg. forc= 0.000022 largest residual force= 0.000101 in node 1128 and dof 2 largest increment of disp= 4.580102e-06 largest correction to disp= 1.120747e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000651 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 4.580102e-06 largest correction to disp= 1.036984e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00148013, limit = 0.001, normalization = 0.000186867, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.167696, limit = 0.001, normalization = 0.335668, conv = false ---[precice]  iteration: 4 of 100, time-window: 3638, time: 0.0003637 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3638 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.637000e-04 actual step time=3.638000e-04 actual total time=3.638000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000651 time avg. forc= 0.000022 largest residual force= 0.000101 in node 1128 and dof 2 largest increment of disp= 4.580102e-06 largest correction to disp= 1.119012e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000651 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 4.580102e-06 largest correction to disp= 1.033866e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000529387, limit = 0.001, normalization = 0.000186876, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0203673, limit = 0.001, normalization = 0.336356, conv = false ---[precice]  iteration: 5 of 100, time-window: 3638, time: 0.0003637 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3638 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.637000e-04 actual step time=3.638000e-04 actual total time=3.638000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000651 time avg. forc= 0.000022 largest residual force= 0.000101 in node 1128 and dof 2 largest increment of disp= 4.580102e-06 largest correction to disp= 1.118611e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000651 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 4.580102e-06 largest correction to disp= 1.033537e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 8.67303e-05, limit = 0.001, normalization = 0.000186877, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0024072, limit = 0.001, normalization = 0.336679, conv = false ---[precice]  iteration: 6 of 100, time-window: 3638, time: 0.0003637 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3638 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.637000e-04 actual step time=3.638000e-04 actual total time=3.638000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000651 time avg. forc= 0.000022 largest residual force= 0.000101 in node 1128 and dof 2 largest increment of disp= 4.580102e-06 largest correction to disp= 1.118708e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000651 time avg. forc= 0.000022 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 4.580102e-06 largest correction to disp= 1.033545e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.23232e-05, limit = 0.001, normalization = 0.000186877, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000257251, limit = 0.001, normalization = 0.336653, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3639, time: 0.0003638 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3639 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.638000e-04 actual step time=3.639000e-04 actual total time=3.639000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000373 time avg. forc= 0.000023 largest residual force= 0.000088 in node 1079 and dof 2 largest increment of disp= 6.478525e-06 largest correction to disp= 4.491196e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000373 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 6.478525e-06 largest correction to disp= 7.301480e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.085141, limit = 0.001, normalization = 0.000187075, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.01146, limit = 0.001, normalization = 0.598508, conv = false ---[precice]  iteration: 2 of 100, time-window: 3639, time: 0.0003638 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3639 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.638000e-04 actual step time=3.639000e-04 actual total time=3.639000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000380 time avg. forc= 0.000023 largest residual force= 0.000050 in node 1699 and dof 2 largest increment of disp= 6.478525e-06 largest correction to disp= 2.313289e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000380 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 6.478525e-06 largest correction to disp= 4.932512e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00976295, limit = 0.001, normalization = 0.000187946, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.394881, limit = 0.001, normalization = 0.80109, conv = false ---[precice]  iteration: 3 of 100, time-window: 3639, time: 0.0003638 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3639 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.638000e-04 actual step time=3.639000e-04 actual total time=3.639000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000381 time avg. forc= 0.000023 largest residual force= 0.000049 in node 1699 and dof 2 largest increment of disp= 6.478525e-06 largest correction to disp= 2.284762e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000381 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 6.478525e-06 largest correction to disp= 4.729597e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00208399, limit = 0.001, normalization = 0.000187983, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0187206, limit = 0.001, normalization = 0.742354, conv = false ---[precice]  iteration: 4 of 100, time-window: 3639, time: 0.0003638 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3639 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.638000e-04 actual step time=3.639000e-04 actual total time=3.639000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000381 time avg. forc= 0.000023 largest residual force= 0.000049 in node 1699 and dof 2 largest increment of disp= 6.478525e-06 largest correction to disp= 2.267288e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000381 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 6.478525e-06 largest correction to disp= 4.691888e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000712, limit = 0.001, normalization = 0.000187988, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0178954, limit = 0.001, normalization = 0.742899, conv = false ---[precice]  iteration: 5 of 100, time-window: 3639, time: 0.0003638 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3639 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.638000e-04 actual step time=3.639000e-04 actual total time=3.639000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000381 time avg. forc= 0.000023 largest residual force= 0.000049 in node 1699 and dof 2 largest increment of disp= 6.478525e-06 largest correction to disp= 2.266230e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000381 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 6.478525e-06 largest correction to disp= 4.685943e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000211536, limit = 0.001, normalization = 0.000187989, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00300242, limit = 0.001, normalization = 0.743734, conv = false ---[precice]  iteration: 6 of 100, time-window: 3639, time: 0.0003638 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3639 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.638000e-04 actual step time=3.639000e-04 actual total time=3.639000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000381 time avg. forc= 0.000023 largest residual force= 0.000049 in node 1699 and dof 2 largest increment of disp= 6.478525e-06 largest correction to disp= 2.267282e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000381 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 6.478525e-06 largest correction to disp= 4.685333e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.46641e-05, limit = 0.001, normalization = 0.000187989, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00216235, limit = 0.001, normalization = 0.743814, conv = false ---[precice]  iteration: 7 of 100, time-window: 3639, time: 0.0003638 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3639 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.638000e-04 actual step time=3.639000e-04 actual total time=3.639000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000381 time avg. forc= 0.000023 largest residual force= 0.000049 in node 1699 and dof 2 largest increment of disp= 6.478525e-06 largest correction to disp= 2.267410e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000381 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 6.478525e-06 largest correction to disp= 4.689412e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.84668e-05, limit = 0.001, normalization = 0.000187989, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 4.36725e-05, limit = 0.001, normalization = 0.743827, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3640, time: 0.0003639 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3640 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.639000e-04 actual step time=3.640000e-04 actual total time=3.640000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000701 time avg. forc= 0.000023 largest residual force= 0.000128 in node 1280 and dof 2 largest increment of disp= 2.734283e-06 largest correction to disp= 1.302384e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000701 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.734283e-06 largest correction to disp= 5.216118e-08 in node 1980 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0642669, limit = 0.001, normalization = 0.000187726, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.97109, limit = 0.001, normalization = 0.624019, conv = false ---[precice]  iteration: 2 of 100, time-window: 3640, time: 0.0003639 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3640 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.639000e-04 actual step time=3.640000e-04 actual total time=3.640000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000685 time avg. forc= 0.000023 largest residual force= 0.000127 in node 1333 and dof 2 largest increment of disp= 2.734283e-06 largest correction to disp= 1.701216e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000685 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.734283e-06 largest correction to disp= 1.367244e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00515205, limit = 0.001, normalization = 0.00018707, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.73166, limit = 0.001, normalization = 0.277407, conv = false ---[precice]  iteration: 3 of 100, time-window: 3640, time: 0.0003639 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3640 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.639000e-04 actual step time=3.640000e-04 actual total time=3.640000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000684 time avg. forc= 0.000023 largest residual force= 0.000127 in node 1333 and dof 2 largest increment of disp= 2.734283e-06 largest correction to disp= 1.663527e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000684 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.734283e-06 largest correction to disp= 1.456118e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00209981, limit = 0.001, normalization = 0.000187043, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0432571, limit = 0.001, normalization = 0.254447, conv = false ---[precice]  iteration: 4 of 100, time-window: 3640, time: 0.0003639 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3640 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.639000e-04 actual step time=3.640000e-04 actual total time=3.640000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000685 time avg. forc= 0.000023 largest residual force= 0.000582 in node 535 and dof 2 largest increment of disp= 2.734283e-06 largest correction to disp= 1.644393e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000684 time avg. forc= 0.000023 largest residual force= 0.000002 in node 538 and dof 2 largest increment of disp= 2.734283e-06 largest correction to disp= 4.087675e-07 in node 542 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000684 time avg. forc= 0.000023 largest residual force= 0.000000 in node 615 and dof 2 largest increment of disp= 2.734283e-06 largest correction to disp= 6.876898e-11 in node 527 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000586255, limit = 0.001, normalization = 0.000187042, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0249281, limit = 0.001, normalization = 0.255894, conv = false ---[precice]  iteration: 5 of 100, time-window: 3640, time: 0.0003639 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3640 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.639000e-04 actual step time=3.640000e-04 actual total time=3.640000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000684 time avg. forc= 0.000023 largest residual force= 0.000127 in node 1333 and dof 2 largest increment of disp= 2.734283e-06 largest correction to disp= 1.655076e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000684 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.734283e-06 largest correction to disp= 1.462373e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000178408, limit = 0.001, normalization = 0.000187042, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00504298, limit = 0.001, normalization = 0.256453, conv = false ---[precice]  iteration: 6 of 100, time-window: 3640, time: 0.0003639 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3640 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.639000e-04 actual step time=3.640000e-04 actual total time=3.640000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000684 time avg. forc= 0.000023 largest residual force= 0.000127 in node 1333 and dof 2 largest increment of disp= 2.734283e-06 largest correction to disp= 1.655631e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000684 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.734283e-06 largest correction to disp= 1.462334e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.7812e-05, limit = 0.001, normalization = 0.000187042, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00117482, limit = 0.001, normalization = 0.256474, conv = false ---[precice]  iteration: 7 of 100, time-window: 3640, time: 0.0003639 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3640 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.639000e-04 actual step time=3.640000e-04 actual total time=3.640000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000684 time avg. forc= 0.000023 largest residual force= 0.000127 in node 1333 and dof 2 largest increment of disp= 2.734283e-06 largest correction to disp= 1.655590e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000684 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.734283e-06 largest correction to disp= 1.462310e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 9.42618e-06, limit = 0.001, normalization = 0.000187042, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000419494, limit = 0.001, normalization = 0.25643, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3641, time: 0.000364 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3641 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.640000e-04 actual step time=3.641000e-04 actual total time=3.641000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000528 time avg. forc= 0.000023 largest residual force= 0.000088 in node 867 and dof 2 largest increment of disp= 6.126731e-06 largest correction to disp= 4.897000e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000528 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 6.126731e-06 largest correction to disp= 6.555221e-09 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0944832, limit = 0.001, normalization = 0.00018691, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.25386, limit = 0.001, normalization = 0.756907, conv = false ---[precice]  iteration: 2 of 100, time-window: 3641, time: 0.000364 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3641 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.640000e-04 actual step time=3.641000e-04 actual total time=3.641000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000510 time avg. forc= 0.000023 largest residual force= 0.000052 in node 957 and dof 2 largest increment of disp= 6.126731e-06 largest correction to disp= 1.432466e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000510 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 6.126731e-06 largest correction to disp= 7.592915e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00694531, limit = 0.001, normalization = 0.000187364, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0738448, limit = 0.001, normalization = 0.668155, conv = false ---[precice]  iteration: 3 of 100, time-window: 3641, time: 0.000364 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3641 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.640000e-04 actual step time=3.641000e-04 actual total time=3.641000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000510 time avg. forc= 0.000023 largest residual force= 0.000052 in node 957 and dof 2 largest increment of disp= 6.126731e-06 largest correction to disp= 1.439111e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000510 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 6.126731e-06 largest correction to disp= 7.572501e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00150293, limit = 0.001, normalization = 0.000187352, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0188783, limit = 0.001, normalization = 0.663702, conv = false ---[precice]  iteration: 4 of 100, time-window: 3641, time: 0.000364 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3641 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.640000e-04 actual step time=3.641000e-04 actual total time=3.641000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000510 time avg. forc= 0.000023 largest residual force= 0.000052 in node 957 and dof 2 largest increment of disp= 6.126731e-06 largest correction to disp= 1.430332e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000510 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1459 and dof 2 largest increment of disp= 6.126731e-06 largest correction to disp= 7.611467e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000577627, limit = 0.001, normalization = 0.000187362, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000651467, limit = 0.001, normalization = 0.663971, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3642, time: 0.0003641 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3642 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.641000e-04 actual step time=3.642000e-04 actual total time=3.642000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000557 time avg. forc= 0.000023 largest residual force= 0.000073 in node 1384 and dof 2 largest increment of disp= 4.758397e-06 largest correction to disp= 3.240330e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000557 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 4.758397e-06 largest correction to disp= 7.930282e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.070918, limit = 0.001, normalization = 0.000188043, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.82731, limit = 0.001, normalization = 0.480673, conv = false ---[precice]  iteration: 2 of 100, time-window: 3642, time: 0.0003641 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3642 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.641000e-04 actual step time=3.642000e-04 actual total time=3.642000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000557 time avg. forc= 0.000023 largest residual force= 0.000068 in node 1279 and dof 2 largest increment of disp= 4.758397e-06 largest correction to disp= 2.586916e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000557 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 4.758397e-06 largest correction to disp= 8.096921e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00866106, limit = 0.001, normalization = 0.000188413, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.103252, limit = 0.001, normalization = 0.611717, conv = false ---[precice]  iteration: 3 of 100, time-window: 3642, time: 0.0003641 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3642 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.641000e-04 actual step time=3.642000e-04 actual total time=3.642000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000557 time avg. forc= 0.000023 largest residual force= 0.000068 in node 1279 and dof 2 largest increment of disp= 4.758397e-06 largest correction to disp= 2.742229e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000557 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 4.758397e-06 largest correction to disp= 8.259002e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00360081, limit = 0.001, normalization = 0.000188316, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0381617, limit = 0.001, normalization = 0.608479, conv = false ---[precice]  iteration: 4 of 100, time-window: 3642, time: 0.0003641 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3642 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.641000e-04 actual step time=3.642000e-04 actual total time=3.642000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000557 time avg. forc= 0.000023 largest residual force= 0.000068 in node 1279 and dof 2 largest increment of disp= 4.758397e-06 largest correction to disp= 2.745037e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000557 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 4.758397e-06 largest correction to disp= 8.209924e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00115102, limit = 0.001, normalization = 0.000188319, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00131331, limit = 0.001, normalization = 0.608741, conv = false ---[precice]  iteration: 5 of 100, time-window: 3642, time: 0.0003641 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3642 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.641000e-04 actual step time=3.642000e-04 actual total time=3.642000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000557 time avg. forc= 0.000023 largest residual force= 0.000068 in node 1279 and dof 2 largest increment of disp= 4.758397e-06 largest correction to disp= 2.743470e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000557 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 4.758397e-06 largest correction to disp= 8.220932e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000260133, limit = 0.001, normalization = 0.000188319, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00568595, limit = 0.001, normalization = 0.608862, conv = false ---[precice]  iteration: 6 of 100, time-window: 3642, time: 0.0003641 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3642 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.641000e-04 actual step time=3.642000e-04 actual total time=3.642000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000557 time avg. forc= 0.000023 largest residual force= 0.000068 in node 1279 and dof 2 largest increment of disp= 4.758397e-06 largest correction to disp= 2.741765e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000557 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 4.758397e-06 largest correction to disp= 8.224314e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.9651e-05, limit = 0.001, normalization = 0.000188319, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00487935, limit = 0.001, normalization = 0.608883, conv = false ---[precice]  iteration: 7 of 100, time-window: 3642, time: 0.0003641 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3642 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.641000e-04 actual step time=3.642000e-04 actual total time=3.642000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000557 time avg. forc= 0.000023 largest residual force= 0.000068 in node 1279 and dof 2 largest increment of disp= 4.758397e-06 largest correction to disp= 2.741708e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000557 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 4.758397e-06 largest correction to disp= 8.219537e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.35685e-05, limit = 0.001, normalization = 0.00018832, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000287368, limit = 0.001, normalization = 0.608929, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3643, time: 0.0003642 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3643 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.642000e-04 actual step time=3.643000e-04 actual total time=3.643000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000735 time avg. forc= 0.000023 largest residual force= 0.000120 in node 1128 and dof 2 largest increment of disp= 4.923457e-06 largest correction to disp= 3.960869e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000735 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 4.923457e-06 largest correction to disp= 1.083916e-08 in node 1352 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0849867, limit = 0.001, normalization = 0.000187866, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.66788, limit = 0.001, normalization = 0.804134, conv = false ---[precice]  iteration: 2 of 100, time-window: 3643, time: 0.0003642 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3643 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.642000e-04 actual step time=3.643000e-04 actual total time=3.643000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000709 time avg. forc= 0.000023 largest residual force= 0.000123 in node 1128 and dof 2 largest increment of disp= 4.923457e-06 largest correction to disp= 1.172700e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000709 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 4.923457e-06 largest correction to disp= 1.224418e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0130529, limit = 0.001, normalization = 0.000187196, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.284829, limit = 0.001, normalization = 0.390437, conv = false ---[precice]  iteration: 3 of 100, time-window: 3643, time: 0.0003642 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3643 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.642000e-04 actual step time=3.643000e-04 actual total time=3.643000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000709 time avg. forc= 0.000023 largest residual force= 0.000123 in node 1128 and dof 2 largest increment of disp= 4.923457e-06 largest correction to disp= 1.216429e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000709 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 4.923457e-06 largest correction to disp= 1.212058e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00123652, limit = 0.001, normalization = 0.000187206, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0349564, limit = 0.001, normalization = 0.355242, conv = false ---[precice]  iteration: 4 of 100, time-window: 3643, time: 0.0003642 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3643 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.642000e-04 actual step time=3.643000e-04 actual total time=3.643000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000709 time avg. forc= 0.000023 largest residual force= 0.000123 in node 1128 and dof 2 largest increment of disp= 4.923457e-06 largest correction to disp= 1.208354e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000709 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 4.923457e-06 largest correction to disp= 1.219903e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000596003, limit = 0.001, normalization = 0.000187198, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0410249, limit = 0.001, normalization = 0.357272, conv = false ---[precice]  iteration: 5 of 100, time-window: 3643, time: 0.0003642 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3643 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.642000e-04 actual step time=3.643000e-04 actual total time=3.643000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000709 time avg. forc= 0.000023 largest residual force= 0.000123 in node 1128 and dof 2 largest increment of disp= 4.923457e-06 largest correction to disp= 1.207518e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000709 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 4.923457e-06 largest correction to disp= 1.219420e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000379053, limit = 0.001, normalization = 0.000187198, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.015786, limit = 0.001, normalization = 0.356343, conv = false ---[precice]  iteration: 6 of 100, time-window: 3643, time: 0.0003642 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3643 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.642000e-04 actual step time=3.643000e-04 actual total time=3.643000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000709 time avg. forc= 0.000023 largest residual force= 0.000123 in node 1128 and dof 2 largest increment of disp= 4.923457e-06 largest correction to disp= 1.207560e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000709 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 4.923457e-06 largest correction to disp= 1.219903e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000110317, limit = 0.001, normalization = 0.000187198, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00455945, limit = 0.001, normalization = 0.356255, conv = false ---[precice]  iteration: 7 of 100, time-window: 3643, time: 0.0003642 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3643 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.642000e-04 actual step time=3.643000e-04 actual total time=3.643000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000709 time avg. forc= 0.000023 largest residual force= 0.000123 in node 1128 and dof 2 largest increment of disp= 4.923457e-06 largest correction to disp= 1.207476e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000709 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 4.923457e-06 largest correction to disp= 3.400360e-08 in node 1980 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.01647e-05, limit = 0.001, normalization = 0.000187198, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000563763, limit = 0.001, normalization = 0.356168, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3644, time: 0.0003643 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3644 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.643000e-04 actual step time=3.644000e-04 actual total time=3.644000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000403 time avg. forc= 0.000023 largest residual force= 0.000106 in node 1079 and dof 2 largest increment of disp= 7.090267e-06 largest correction to disp= 4.921243e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000403 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 7.090267e-06 largest correction to disp= 9.365979e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0927459, limit = 0.001, normalization = 0.000187429, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.00256, limit = 0.001, normalization = 0.623565, conv = false ---[precice]  iteration: 2 of 100, time-window: 3644, time: 0.0003643 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3644 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.643000e-04 actual step time=3.644000e-04 actual total time=3.644000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000411 time avg. forc= 0.000023 largest residual force= 0.000058 in node 1699 and dof 2 largest increment of disp= 7.090267e-06 largest correction to disp= 2.449255e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000411 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 7.090267e-06 largest correction to disp= 5.594118e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.015801, limit = 0.001, normalization = 0.000188557, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0561325, limit = 0.001, normalization = 0.835458, conv = false ---[precice]  iteration: 3 of 100, time-window: 3644, time: 0.0003643 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3644 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.643000e-04 actual step time=3.644000e-04 actual total time=3.644000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000411 time avg. forc= 0.000023 largest residual force= 0.000059 in node 1699 and dof 2 largest increment of disp= 7.090267e-06 largest correction to disp= 2.466212e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000411 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 7.090267e-06 largest correction to disp= 6.244902e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00453796, limit = 0.001, normalization = 0.0001885, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0426704, limit = 0.001, normalization = 0.8101, conv = false ---[precice]  iteration: 4 of 100, time-window: 3644, time: 0.0003643 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3644 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.643000e-04 actual step time=3.644000e-04 actual total time=3.644000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000411 time avg. forc= 0.000023 largest residual force= 0.000059 in node 1699 and dof 2 largest increment of disp= 7.090267e-06 largest correction to disp= 2.463454e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000411 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 7.090267e-06 largest correction to disp= 6.118069e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00253705, limit = 0.001, normalization = 0.000188512, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0183899, limit = 0.001, normalization = 0.809055, conv = false ---[precice]  iteration: 5 of 100, time-window: 3644, time: 0.0003643 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3644 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.643000e-04 actual step time=3.644000e-04 actual total time=3.644000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000411 time avg. forc= 0.000023 largest residual force= 0.000059 in node 1699 and dof 2 largest increment of disp= 7.090267e-06 largest correction to disp= 2.461121e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000411 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 7.090267e-06 largest correction to disp= 6.130074e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000492311, limit = 0.001, normalization = 0.000188512, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0149569, limit = 0.001, normalization = 0.808778, conv = false ---[precice]  iteration: 6 of 100, time-window: 3644, time: 0.0003643 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3644 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.643000e-04 actual step time=3.644000e-04 actual total time=3.644000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000411 time avg. forc= 0.000023 largest residual force= 0.000059 in node 1699 and dof 2 largest increment of disp= 7.090267e-06 largest correction to disp= 2.460801e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000411 time avg. forc= 0.000023 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 7.090267e-06 largest correction to disp= 6.168354e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.90643e-05, limit = 0.001, normalization = 0.000188509, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000573745, limit = 0.001, normalization = 0.80879, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3645, time: 0.0003644 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3645 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.644000e-04 actual step time=3.645000e-04 actual total time=3.645000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000759 time avg. forc= 0.000024 largest residual force= 0.000149 in node 1333 and dof 2 largest increment of disp= 2.971696e-06 largest correction to disp= 1.434504e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000759 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.971696e-06 largest correction to disp= 1.929482e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0694564, limit = 0.001, normalization = 0.00018822, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.04399, limit = 0.001, normalization = 0.644311, conv = false ---[precice]  iteration: 2 of 100, time-window: 3645, time: 0.0003644 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3645 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.644000e-04 actual step time=3.645000e-04 actual total time=3.645000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000741 time avg. forc= 0.000024 largest residual force= 0.000153 in node 1333 and dof 2 largest increment of disp= 2.971696e-06 largest correction to disp= 1.888763e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000741 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.971696e-06 largest correction to disp= 1.718919e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.009844, limit = 0.001, normalization = 0.000187444, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.497798, limit = 0.001, normalization = 0.308623, conv = false ---[precice]  iteration: 3 of 100, time-window: 3645, time: 0.0003644 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3645 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.644000e-04 actual step time=3.645000e-04 actual total time=3.645000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000741 time avg. forc= 0.000024 largest residual force= 0.000153 in node 1333 and dof 2 largest increment of disp= 2.971696e-06 largest correction to disp= 1.832833e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000741 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.971696e-06 largest correction to disp= 1.843268e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00332178, limit = 0.001, normalization = 0.000187436, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.27562, limit = 0.001, normalization = 0.291163, conv = false ---[precice]  iteration: 4 of 100, time-window: 3645, time: 0.0003644 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3645 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.644000e-04 actual step time=3.645000e-04 actual total time=3.645000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000741 time avg. forc= 0.000024 largest residual force= 0.000153 in node 1333 and dof 2 largest increment of disp= 2.971696e-06 largest correction to disp= 1.819731e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000741 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.971696e-06 largest correction to disp= 1.851160e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000741762, limit = 0.001, normalization = 0.000187435, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.023985, limit = 0.001, normalization = 0.285458, conv = false ---[precice]  iteration: 5 of 100, time-window: 3645, time: 0.0003644 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3645 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.644000e-04 actual step time=3.645000e-04 actual total time=3.645000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000742 time avg. forc= 0.000024 largest residual force= 0.003160 in node 556 and dof 2 largest increment of disp= 2.971696e-06 largest correction to disp= 1.849351e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000741 time avg. forc= 0.000024 largest residual force= 0.000057 in node 558 and dof 2 largest increment of disp= 2.971696e-06 largest correction to disp= 1.392858e-06 in node 556 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000741 time avg. forc= 0.000024 largest residual force= 0.000000 in node 556 and dof 2 largest increment of disp= 2.971696e-06 largest correction to disp= 2.328485e-09 in node 556 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000184185, limit = 0.001, normalization = 0.000187431, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0198303, limit = 0.001, normalization = 0.2877, conv = false ---[precice]  iteration: 6 of 100, time-window: 3645, time: 0.0003644 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3645 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.644000e-04 actual step time=3.645000e-04 actual total time=3.645000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000741 time avg. forc= 0.000024 largest residual force= 0.000153 in node 1333 and dof 2 largest increment of disp= 2.971696e-06 largest correction to disp= 1.821722e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000741 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.971696e-06 largest correction to disp= 1.851922e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 6.70105e-05, limit = 0.001, normalization = 0.000187431, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0020125, limit = 0.001, normalization = 0.286674, conv = false ---[precice]  iteration: 7 of 100, time-window: 3645, time: 0.0003644 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3645 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.644000e-04 actual step time=3.645000e-04 actual total time=3.645000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000741 time avg. forc= 0.000024 largest residual force= 0.000153 in node 1333 and dof 2 largest increment of disp= 2.971696e-06 largest correction to disp= 1.821906e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000741 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 2.971696e-06 largest correction to disp= 1.852083e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 8.80416e-06, limit = 0.001, normalization = 0.000187431, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000299714, limit = 0.001, normalization = 0.28652, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3646, time: 0.0003645 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3646 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.645000e-04 actual step time=3.646000e-04 actual total time=3.646000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000579 time avg. forc= 0.000024 largest residual force= 0.000104 in node 867 and dof 2 largest increment of disp= 6.612257e-06 largest correction to disp= 5.299148e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000579 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 6.612257e-06 largest correction to disp= 8.266458e-09 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.102388, limit = 0.001, normalization = 0.000187241, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.2774, limit = 0.001, normalization = 0.800867, conv = false ---[precice]  iteration: 2 of 100, time-window: 3646, time: 0.0003645 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3646 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.645000e-04 actual step time=3.646000e-04 actual total time=3.646000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000560 time avg. forc= 0.000024 largest residual force= 0.000067 in node 1064 and dof 2 largest increment of disp= 6.612257e-06 largest correction to disp= 1.528131e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000560 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 6.612257e-06 largest correction to disp= 9.092474e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00779979, limit = 0.001, normalization = 0.00018772, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0753499, limit = 0.001, normalization = 0.713784, conv = false ---[precice]  iteration: 3 of 100, time-window: 3646, time: 0.0003645 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3646 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.645000e-04 actual step time=3.646000e-04 actual total time=3.646000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000560 time avg. forc= 0.000024 largest residual force= 0.000067 in node 1064 and dof 2 largest increment of disp= 6.612257e-06 largest correction to disp= 1.527793e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000560 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 6.612257e-06 largest correction to disp= 9.221050e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00136584, limit = 0.001, normalization = 0.000187735, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0440939, limit = 0.001, normalization = 0.714959, conv = false ---[precice]  iteration: 4 of 100, time-window: 3646, time: 0.0003645 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3646 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.645000e-04 actual step time=3.646000e-04 actual total time=3.646000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000560 time avg. forc= 0.000024 largest residual force= 0.000067 in node 1064 and dof 2 largest increment of disp= 6.612257e-06 largest correction to disp= 1.522363e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000560 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 6.612257e-06 largest correction to disp= 9.257067e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00041958, limit = 0.001, normalization = 0.000187739, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00182466, limit = 0.001, normalization = 0.714426, conv = false ---[precice]  iteration: 5 of 100, time-window: 3646, time: 0.0003645 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3646 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.645000e-04 actual step time=3.646000e-04 actual total time=3.646000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000560 time avg. forc= 0.000024 largest residual force= 0.000067 in node 1064 and dof 2 largest increment of disp= 6.612257e-06 largest correction to disp= 1.522890e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000560 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 6.612257e-06 largest correction to disp= 9.270734e-09 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00011197, limit = 0.001, normalization = 0.000187741, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000270566, limit = 0.001, normalization = 0.71456, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3647, time: 0.0003646 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3647 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.646000e-04 actual step time=3.647000e-04 actual total time=3.647000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000599 time avg. forc= 0.000024 largest residual force= 0.000087 in node 1384 and dof 2 largest increment of disp= 5.276872e-06 largest correction to disp= 3.603554e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000599 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 5.276872e-06 largest correction to disp= 8.885547e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0774226, limit = 0.001, normalization = 0.00018852, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.88088, limit = 0.001, normalization = 0.492864, conv = false ---[precice]  iteration: 2 of 100, time-window: 3647, time: 0.0003646 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3647 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.646000e-04 actual step time=3.647000e-04 actual total time=3.647000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000599 time avg. forc= 0.000024 largest residual force= 0.000077 in node 1279 and dof 2 largest increment of disp= 5.276872e-06 largest correction to disp= 2.997607e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000599 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 5.276872e-06 largest correction to disp= 8.863407e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0110973, limit = 0.001, normalization = 0.000188942, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.166552, limit = 0.001, normalization = 0.669489, conv = false ---[precice]  iteration: 3 of 100, time-window: 3647, time: 0.0003646 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3647 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.646000e-04 actual step time=3.647000e-04 actual total time=3.647000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000599 time avg. forc= 0.000024 largest residual force= 0.000077 in node 1384 and dof 2 largest increment of disp= 5.276872e-06 largest correction to disp= 3.015581e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000599 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 5.276872e-06 largest correction to disp= 9.090506e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00308429, limit = 0.001, normalization = 0.00018889, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0503513, limit = 0.001, normalization = 0.668851, conv = false ---[precice]  iteration: 4 of 100, time-window: 3647, time: 0.0003646 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3647 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.646000e-04 actual step time=3.647000e-04 actual total time=3.647000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000599 time avg. forc= 0.000024 largest residual force= 0.000077 in node 1279 and dof 2 largest increment of disp= 5.276872e-06 largest correction to disp= 3.001994e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000599 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 5.276872e-06 largest correction to disp= 9.259943e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00121201, limit = 0.001, normalization = 0.000188877, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0431773, limit = 0.001, normalization = 0.668993, conv = false ---[precice]  iteration: 5 of 100, time-window: 3647, time: 0.0003646 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3647 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.646000e-04 actual step time=3.647000e-04 actual total time=3.647000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000599 time avg. forc= 0.000024 largest residual force= 0.000077 in node 1279 and dof 2 largest increment of disp= 5.276872e-06 largest correction to disp= 3.004546e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000599 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 5.276872e-06 largest correction to disp= 9.189033e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000316896, limit = 0.001, normalization = 0.000188884, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000731728, limit = 0.001, normalization = 0.669039, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3648, time: 0.0003647 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3648 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.647000e-04 actual step time=3.648000e-04 actual total time=3.648000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000801 time avg. forc= 0.000024 largest residual force= 0.000140 in node 1128 and dof 2 largest increment of disp= 5.301424e-06 largest correction to disp= 4.252478e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000801 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 5.301424e-06 largest correction to disp= 1.269627e-08 in node 1352 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0916298, limit = 0.001, normalization = 0.000188342, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.7104, limit = 0.001, normalization = 0.842755, conv = false ---[precice]  iteration: 2 of 100, time-window: 3648, time: 0.0003647 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3648 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.647000e-04 actual step time=3.648000e-04 actual total time=3.648000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000773 time avg. forc= 0.000024 largest residual force= 0.000143 in node 1128 and dof 2 largest increment of disp= 5.301424e-06 largest correction to disp= 1.282337e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000772 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 5.301424e-06 largest correction to disp= 1.488206e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00790462, limit = 0.001, normalization = 0.000187503, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.135519, limit = 0.001, normalization = 0.384531, conv = false ---[precice]  iteration: 3 of 100, time-window: 3648, time: 0.0003647 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3648 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.647000e-04 actual step time=3.648000e-04 actual total time=3.648000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000772 time avg. forc= 0.000024 largest residual force= 0.000144 in node 1128 and dof 2 largest increment of disp= 5.301424e-06 largest correction to disp= 1.304100e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000772 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 5.301424e-06 largest correction to disp= 1.457558e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00145092, limit = 0.001, normalization = 0.000187536, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0508418, limit = 0.001, normalization = 0.376531, conv = false ---[precice]  iteration: 4 of 100, time-window: 3648, time: 0.0003647 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3648 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.647000e-04 actual step time=3.648000e-04 actual total time=3.648000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000772 time avg. forc= 0.000024 largest residual force= 0.000144 in node 1128 and dof 2 largest increment of disp= 5.301424e-06 largest correction to disp= 1.302434e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000772 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 5.301424e-06 largest correction to disp= 1.459169e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000435087, limit = 0.001, normalization = 0.000187534, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.037165, limit = 0.001, normalization = 0.376819, conv = false ---[precice]  iteration: 5 of 100, time-window: 3648, time: 0.0003647 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3648 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.647000e-04 actual step time=3.648000e-04 actual total time=3.648000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000772 time avg. forc= 0.000024 largest residual force= 0.000144 in node 1128 and dof 2 largest increment of disp= 5.301424e-06 largest correction to disp= 1.300988e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000772 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 5.301424e-06 largest correction to disp= 3.593021e-08 in node 1980 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000240546, limit = 0.001, normalization = 0.00018753, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00274239, limit = 0.001, normalization = 0.377095, conv = false ---[precice]  iteration: 6 of 100, time-window: 3648, time: 0.0003647 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3648 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.647000e-04 actual step time=3.648000e-04 actual total time=3.648000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000772 time avg. forc= 0.000024 largest residual force= 0.000144 in node 1128 and dof 2 largest increment of disp= 5.301424e-06 largest correction to disp= 1.300432e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000772 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 5.301424e-06 largest correction to disp= 1.462594e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.98569e-05, limit = 0.001, normalization = 0.000187529, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00370533, limit = 0.001, normalization = 0.377055, conv = false ---[precice]  iteration: 7 of 100, time-window: 3648, time: 0.0003647 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3648 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.647000e-04 actual step time=3.648000e-04 actual total time=3.648000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000772 time avg. forc= 0.000024 largest residual force= 0.000144 in node 1128 and dof 2 largest increment of disp= 5.301424e-06 largest correction to disp= 1.300480e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000772 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 5.301424e-06 largest correction to disp= 1.462557e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.38553e-05, limit = 0.001, normalization = 0.000187529, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 6.957e-05, limit = 0.001, normalization = 0.377155, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3649, time: 0.0003648 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3649 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.648000e-04 actual step time=3.649000e-04 actual total time=3.649000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000435 time avg. forc= 0.000024 largest residual force= 0.000125 in node 1079 and dof 2 largest increment of disp= 7.707246e-06 largest correction to disp= 5.350815e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000435 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 7.707246e-06 largest correction to disp= 1.084520e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.101053, limit = 0.001, normalization = 0.000187796, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.00167, limit = 0.001, normalization = 0.649701, conv = false ---[precice]  iteration: 2 of 100, time-window: 3649, time: 0.0003648 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3649 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.648000e-04 actual step time=3.649000e-04 actual total time=3.649000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000444 time avg. forc= 0.000024 largest residual force= 0.000069 in node 1699 and dof 2 largest increment of disp= 7.707246e-06 largest correction to disp= 2.647198e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000444 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 7.707246e-06 largest correction to disp= 7.490788e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00566733, limit = 0.001, normalization = 0.000189023, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.324151, limit = 0.001, normalization = 0.911684, conv = false ---[precice]  iteration: 3 of 100, time-window: 3649, time: 0.0003648 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3649 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.648000e-04 actual step time=3.649000e-04 actual total time=3.649000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000444 time avg. forc= 0.000024 largest residual force= 0.000068 in node 1699 and dof 2 largest increment of disp= 7.707246e-06 largest correction to disp= 2.652285e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000444 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 7.707246e-06 largest correction to disp= 6.959146e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0021407, limit = 0.001, normalization = 0.000189068, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0109016, limit = 0.001, normalization = 0.881267, conv = false ---[precice]  iteration: 4 of 100, time-window: 3649, time: 0.0003648 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3649 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.648000e-04 actual step time=3.649000e-04 actual total time=3.649000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000444 time avg. forc= 0.000024 largest residual force= 0.000068 in node 1699 and dof 2 largest increment of disp= 7.707246e-06 largest correction to disp= 2.628191e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000444 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1699 and dof 2 largest increment of disp= 7.707246e-06 largest correction to disp= 6.969297e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000769712, limit = 0.001, normalization = 0.000189074, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000548345, limit = 0.001, normalization = 0.879506, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3650, time: 0.0003649 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3650 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.649000e-04 actual step time=3.650000e-04 actual total time=3.650000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000821 time avg. forc= 0.000024 largest residual force= 0.000175 in node 1280 and dof 2 largest increment of disp= 3.163771e-06 largest correction to disp= 1.552737e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000821 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.163771e-06 largest correction to disp= 2.434483e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0750779, limit = 0.001, normalization = 0.00018876, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.08471, limit = 0.001, normalization = 0.679301, conv = false ---[precice]  iteration: 2 of 100, time-window: 3650, time: 0.0003649 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3650 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.649000e-04 actual step time=3.650000e-04 actual total time=3.650000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000801 time avg. forc= 0.000024 largest residual force= 0.000176 in node 1333 and dof 2 largest increment of disp= 3.163771e-06 largest correction to disp= 2.099912e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000801 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.163771e-06 largest correction to disp= 2.134869e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00572788, limit = 0.001, normalization = 0.000187825, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.144503, limit = 0.001, normalization = 0.328382, conv = false ---[precice]  iteration: 3 of 100, time-window: 3650, time: 0.0003649 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3650 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.649000e-04 actual step time=3.650000e-04 actual total time=3.650000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000024 largest residual force= 0.000176 in node 1333 and dof 2 largest increment of disp= 3.163771e-06 largest correction to disp= 2.029747e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.163771e-06 largest correction to disp= 2.329925e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0015674, limit = 0.001, normalization = 0.000187863, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0517259, limit = 0.001, normalization = 0.317642, conv = false ---[precice]  iteration: 4 of 100, time-window: 3650, time: 0.0003649 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3650 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.649000e-04 actual step time=3.650000e-04 actual total time=3.650000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000024 largest residual force= 0.000176 in node 1333 and dof 2 largest increment of disp= 3.163771e-06 largest correction to disp= 2.030418e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.163771e-06 largest correction to disp= 2.331082e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000388928, limit = 0.001, normalization = 0.000187852, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00459156, limit = 0.001, normalization = 0.319712, conv = false ---[precice]  iteration: 5 of 100, time-window: 3650, time: 0.0003649 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3650 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.649000e-04 actual step time=3.650000e-04 actual total time=3.650000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000024 largest residual force= 0.000176 in node 1333 and dof 2 largest increment of disp= 3.163771e-06 largest correction to disp= 2.030169e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000024 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.163771e-06 largest correction to disp= 2.331108e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.25364e-05, limit = 0.001, normalization = 0.000187851, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000484433, limit = 0.001, normalization = 0.320466, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3651, time: 0.000365 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3651 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.650000e-04 actual step time=3.651000e-04 actual total time=3.651000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000636 time avg. forc= 0.000025 largest residual force= 0.000122 in node 867 and dof 2 largest increment of disp= 7.151627e-06 largest correction to disp= 5.761026e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000636 time avg. forc= 0.000025 largest residual force= 0.000036 in node 848 and dof 2 largest increment of disp= 7.151627e-06 largest correction to disp= 9.705393e-09 in node 1077 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000636 time avg. forc= 0.000025 largest residual force= 0.000000 in node 952 and dof 2 largest increment of disp= 7.151627e-06 largest correction to disp= 1.818066e-09 in node 781 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.110942, limit = 0.001, normalization = 0.000187589, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.30281, limit = 0.001, normalization = 0.847175, conv = false ---[precice]  iteration: 2 of 100, time-window: 3651, time: 0.000365 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3651 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.650000e-04 actual step time=3.651000e-04 actual total time=3.651000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000614 time avg. forc= 0.000025 largest residual force= 0.000079 in node 1064 and dof 2 largest increment of disp= 7.151627e-06 largest correction to disp= 1.639260e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000614 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 7.151627e-06 largest correction to disp= 1.085028e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00782553, limit = 0.001, normalization = 0.000188082, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.240179, limit = 0.001, normalization = 0.768577, conv = false ---[precice]  iteration: 3 of 100, time-window: 3651, time: 0.000365 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3651 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.650000e-04 actual step time=3.651000e-04 actual total time=3.651000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000614 time avg. forc= 0.000025 largest residual force= 0.000079 in node 1064 and dof 2 largest increment of disp= 7.151627e-06 largest correction to disp= 1.632176e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000614 time avg. forc= 0.000025 largest residual force= 0.000087 in node 1128 and dof 3 largest increment of disp= 7.151627e-06 largest correction to disp= 3.789448e-08 in node 1254 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000614 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1499 and dof 2 largest increment of disp= 7.151627e-06 largest correction to disp= 3.766556e-08 in node 1254 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00212065, limit = 0.001, normalization = 0.00018812, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0687695, limit = 0.001, normalization = 0.768777, conv = false ---[precice]  iteration: 4 of 100, time-window: 3651, time: 0.000365 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3651 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.650000e-04 actual step time=3.651000e-04 actual total time=3.651000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000614 time avg. forc= 0.000025 largest residual force= 0.000079 in node 1064 and dof 2 largest increment of disp= 7.151627e-06 largest correction to disp= 1.631921e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000614 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 7.151627e-06 largest correction to disp= 1.136145e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00034386, limit = 0.001, normalization = 0.000188142, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0200202, limit = 0.001, normalization = 0.768933, conv = false ---[precice]  iteration: 5 of 100, time-window: 3651, time: 0.000365 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3651 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.650000e-04 actual step time=3.651000e-04 actual total time=3.651000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000614 time avg. forc= 0.000025 largest residual force= 0.001767 in node 563 and dof 2 largest increment of disp= 7.151627e-06 largest correction to disp= 1.635212e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000614 time avg. forc= 0.000025 largest residual force= 0.000004 in node 560 and dof 2 largest increment of disp= 7.151627e-06 largest correction to disp= 2.778131e-07 in node 560 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000614 time avg. forc= 0.000025 largest residual force= 0.000000 in node 665 and dof 2 largest increment of disp= 7.151627e-06 largest correction to disp= 4.066111e-10 in node 665 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000188943, limit = 0.001, normalization = 0.000188138, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000382374, limit = 0.001, normalization = 0.768979, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3652, time: 0.0003651 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3652 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.651000e-04 actual step time=3.652000e-04 actual total time=3.652000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000644 time avg. forc= 0.000025 largest residual force= 0.000106 in node 1384 and dof 2 largest increment of disp= 5.822665e-06 largest correction to disp= 3.975784e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000644 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 5.822665e-06 largest correction to disp= 1.073181e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0845431, limit = 0.001, normalization = 0.000189033, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.96604, limit = 0.001, normalization = 0.494628, conv = false ---[precice]  iteration: 2 of 100, time-window: 3652, time: 0.0003651 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3652 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.651000e-04 actual step time=3.652000e-04 actual total time=3.652000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000644 time avg. forc= 0.000025 largest residual force= 0.000094 in node 1279 and dof 2 largest increment of disp= 5.822665e-06 largest correction to disp= 3.284398e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000644 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 5.822665e-06 largest correction to disp= 1.101151e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00784588, limit = 0.001, normalization = 0.000189493, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.225432, limit = 0.001, normalization = 0.74748, conv = false ---[precice]  iteration: 3 of 100, time-window: 3652, time: 0.0003651 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3652 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.651000e-04 actual step time=3.652000e-04 actual total time=3.652000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000644 time avg. forc= 0.000025 largest residual force= 0.000093 in node 1384 and dof 2 largest increment of disp= 5.822665e-06 largest correction to disp= 3.265248e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000644 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 5.822665e-06 largest correction to disp= 1.099962e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00307321, limit = 0.001, normalization = 0.000189492, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0663729, limit = 0.001, normalization = 0.735248, conv = false ---[precice]  iteration: 4 of 100, time-window: 3652, time: 0.0003651 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3652 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.651000e-04 actual step time=3.652000e-04 actual total time=3.652000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000644 time avg. forc= 0.000025 largest residual force= 0.000092 in node 1384 and dof 2 largest increment of disp= 5.822665e-06 largest correction to disp= 3.256561e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000644 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 5.822665e-06 largest correction to disp= 1.092859e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000804838, limit = 0.001, normalization = 0.000189505, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00565955, limit = 0.001, normalization = 0.735145, conv = false ---[precice]  iteration: 5 of 100, time-window: 3652, time: 0.0003651 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3652 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.651000e-04 actual step time=3.652000e-04 actual total time=3.652000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000644 time avg. forc= 0.000025 largest residual force= 0.000092 in node 1384 and dof 2 largest increment of disp= 5.822665e-06 largest correction to disp= 3.255935e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000644 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 5.822665e-06 largest correction to disp= 1.092419e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000184628, limit = 0.001, normalization = 0.000189505, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00106719, limit = 0.001, normalization = 0.735183, conv = false ---[precice]  iteration: 6 of 100, time-window: 3652, time: 0.0003651 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3652 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.651000e-04 actual step time=3.652000e-04 actual total time=3.652000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000644 time avg. forc= 0.000025 largest residual force= 0.000092 in node 1384 and dof 2 largest increment of disp= 5.822665e-06 largest correction to disp= 3.256020e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000644 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 5.822665e-06 largest correction to disp= 1.093363e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.5047e-05, limit = 0.001, normalization = 0.000189504, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00133551, limit = 0.001, normalization = 0.735215, conv = false ---[precice]  iteration: 7 of 100, time-window: 3652, time: 0.0003651 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3652 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.651000e-04 actual step time=3.652000e-04 actual total time=3.652000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000644 time avg. forc= 0.000025 largest residual force= 0.000092 in node 1384 and dof 2 largest increment of disp= 5.822665e-06 largest correction to disp= 3.255734e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000644 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 5.822665e-06 largest correction to disp= 1.093301e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.99031e-05, limit = 0.001, normalization = 0.000189505, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000596593, limit = 0.001, normalization = 0.735227, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3653, time: 0.0003652 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3653 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.652000e-04 actual step time=3.653000e-04 actual total time=3.653000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000873 time avg. forc= 0.000025 largest residual force= 0.000174 in node 1128 and dof 2 largest increment of disp= 5.717133e-06 largest correction to disp= 4.563844e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000873 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 5.717133e-06 largest correction to disp= 1.573024e-08 in node 1352 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.098784, limit = 0.001, normalization = 0.000188861, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.74885, limit = 0.001, normalization = 0.88966, conv = false ---[precice]  iteration: 2 of 100, time-window: 3653, time: 0.0003652 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3653 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.652000e-04 actual step time=3.653000e-04 actual total time=3.653000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000842 time avg. forc= 0.000025 largest residual force= 0.000178 in node 1128 and dof 2 largest increment of disp= 5.717133e-06 largest correction to disp= 1.377648e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000842 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 5.717133e-06 largest correction to disp= 1.762711e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0134309, limit = 0.001, normalization = 0.000187839, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0402089, limit = 0.001, normalization = 0.4355, conv = false ---[precice]  iteration: 3 of 100, time-window: 3653, time: 0.0003652 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3653 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.652000e-04 actual step time=3.653000e-04 actual total time=3.653000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000842 time avg. forc= 0.000025 largest residual force= 0.000178 in node 1128 and dof 2 largest increment of disp= 5.717133e-06 largest correction to disp= 1.426021e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000842 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 5.717133e-06 largest correction to disp= 1.726681e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00315829, limit = 0.001, normalization = 0.000187889, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0722025, limit = 0.001, normalization = 0.397232, conv = false ---[precice]  iteration: 4 of 100, time-window: 3653, time: 0.0003652 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3653 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.652000e-04 actual step time=3.653000e-04 actual total time=3.653000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000842 time avg. forc= 0.000025 largest residual force= 0.000178 in node 1128 and dof 2 largest increment of disp= 5.717133e-06 largest correction to disp= 1.415950e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000842 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 5.717133e-06 largest correction to disp= 1.737810e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00100686, limit = 0.001, normalization = 0.000187876, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00807583, limit = 0.001, normalization = 0.398326, conv = false ---[precice]  iteration: 5 of 100, time-window: 3653, time: 0.0003652 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3653 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.652000e-04 actual step time=3.653000e-04 actual total time=3.653000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000842 time avg. forc= 0.000025 largest residual force= 0.000178 in node 1128 and dof 2 largest increment of disp= 5.717133e-06 largest correction to disp= 1.413125e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000842 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 5.717133e-06 largest correction to disp= 1.741900e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000214006, limit = 0.001, normalization = 0.000187872, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0138048, limit = 0.001, normalization = 0.399831, conv = false ---[precice]  iteration: 6 of 100, time-window: 3653, time: 0.0003652 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3653 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.652000e-04 actual step time=3.653000e-04 actual total time=3.653000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000842 time avg. forc= 0.000025 largest residual force= 0.000178 in node 1128 and dof 2 largest increment of disp= 5.717133e-06 largest correction to disp= 1.413187e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000842 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 5.717133e-06 largest correction to disp= 1.740468e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 6.10896e-05, limit = 0.001, normalization = 0.000187873, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000190723, limit = 0.001, normalization = 0.399894, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3654, time: 0.0003653 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3654 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.653000e-04 actual step time=3.654000e-04 actual total time=3.654000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000471 time avg. forc= 0.000025 largest residual force= 0.000151 in node 1079 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 5.847033e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000471 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 1.367692e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.110112, limit = 0.001, normalization = 0.000188177, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.00785, limit = 0.001, normalization = 0.686321, conv = false ---[precice]  iteration: 2 of 100, time-window: 3654, time: 0.0003653 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3654 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.653000e-04 actual step time=3.654000e-04 actual total time=3.654000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000480 time avg. forc= 0.000025 largest residual force= 0.000082 in node 1699 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 2.725866e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000480 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 9.760343e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0278046, limit = 0.001, normalization = 0.000189652, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.551099, limit = 0.001, normalization = 1.04934, conv = false ---[precice]  iteration: 3 of 100, time-window: 3654, time: 0.0003653 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3654 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.653000e-04 actual step time=3.654000e-04 actual total time=3.654000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000480 time avg. forc= 0.000025 largest residual force= 0.000079 in node 1699 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 2.822108e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000480 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 8.541784e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00651817, limit = 0.001, normalization = 0.00018973, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0129742, limit = 0.001, normalization = 0.973653, conv = false ---[precice]  iteration: 4 of 100, time-window: 3654, time: 0.0003653 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3654 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.653000e-04 actual step time=3.654000e-04 actual total time=3.654000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000480 time avg. forc= 0.000025 largest residual force= 0.000080 in node 1699 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 2.846548e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000480 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 8.792471e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00206054, limit = 0.001, normalization = 0.000189695, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00248665, limit = 0.001, normalization = 0.959392, conv = false ---[precice]  iteration: 5 of 100, time-window: 3654, time: 0.0003653 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3654 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.653000e-04 actual step time=3.654000e-04 actual total time=3.654000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000482 time avg. forc= 0.000025 largest residual force= 0.006338 in node 921 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 2.809118e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000480 time avg. forc= 0.000025 largest residual force= 0.000051 in node 942 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 2.493481e-06 in node 921 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000480 time avg. forc= 0.000025 largest residual force= 0.000000 in node 942 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 1.562583e-09 in node 944 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000462837, limit = 0.001, normalization = 0.000189695, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0127348, limit = 0.001, normalization = 0.957593, conv = false ---[precice]  iteration: 6 of 100, time-window: 3654, time: 0.0003653 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3654 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.653000e-04 actual step time=3.654000e-04 actual total time=3.654000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000480 time avg. forc= 0.000025 largest residual force= 0.000080 in node 1699 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 2.834816e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000480 time avg. forc= 0.000025 largest residual force= 0.000025 in node 1968 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 8.808943e-09 in node 1598 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000480 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1989 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 1.085484e-09 in node 1968 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00024184, limit = 0.001, normalization = 0.000189695, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0112496, limit = 0.001, normalization = 0.957481, conv = false ---[precice]  iteration: 7 of 100, time-window: 3654, time: 0.0003653 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3654 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.653000e-04 actual step time=3.654000e-04 actual total time=3.654000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000480 time avg. forc= 0.000025 largest residual force= 0.000080 in node 1699 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 2.835706e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000480 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 8.418152e-06 largest correction to disp= 8.832623e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000117686, limit = 0.001, normalization = 0.000189693, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00039635, limit = 0.001, normalization = 0.957853, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3655, time: 0.0003654 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3655 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.654000e-04 actual step time=3.655000e-04 actual total time=3.655000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000888 time avg. forc= 0.000025 largest residual force= 0.000210 in node 1333 and dof 2 largest increment of disp= 3.420679e-06 largest correction to disp= 1.707548e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000888 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.420679e-06 largest correction to disp= 3.046704e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0811673, limit = 0.001, normalization = 0.000189363, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.21015, limit = 0.001, normalization = 0.682236, conv = false ---[precice]  iteration: 2 of 100, time-window: 3655, time: 0.0003654 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3655 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.654000e-04 actual step time=3.655000e-04 actual total time=3.655000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000870 time avg. forc= 0.000025 largest residual force= 0.000216 in node 1333 and dof 2 largest increment of disp= 3.420679e-06 largest correction to disp= 2.261769e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000870 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.420679e-06 largest correction to disp= 2.493307e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0398146, limit = 0.001, normalization = 0.000188456, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.40483, limit = 0.001, normalization = 0.81036, conv = false ---[precice]  iteration: 3 of 100, time-window: 3655, time: 0.0003654 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3655 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.654000e-04 actual step time=3.655000e-04 actual total time=3.655000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000868 time avg. forc= 0.000025 largest residual force= 0.000215 in node 1333 and dof 2 largest increment of disp= 3.420679e-06 largest correction to disp= 2.266443e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000868 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.420679e-06 largest correction to disp= 2.767838e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0107282, limit = 0.001, normalization = 0.00018835, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.774773, limit = 0.001, normalization = 0.431107, conv = false ---[precice]  iteration: 4 of 100, time-window: 3655, time: 0.0003654 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3655 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.654000e-04 actual step time=3.655000e-04 actual total time=3.655000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000867 time avg. forc= 0.000025 largest residual force= 0.000215 in node 1333 and dof 2 largest increment of disp= 3.420679e-06 largest correction to disp= 2.251788e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000867 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.420679e-06 largest correction to disp= 2.900905e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00214859, limit = 0.001, normalization = 0.000188309, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.051549, limit = 0.001, normalization = 0.363337, conv = false ---[precice]  iteration: 5 of 100, time-window: 3655, time: 0.0003654 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3655 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.654000e-04 actual step time=3.655000e-04 actual total time=3.655000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000867 time avg. forc= 0.000025 largest residual force= 0.000215 in node 1333 and dof 2 largest increment of disp= 3.420679e-06 largest correction to disp= 2.254098e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000867 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.420679e-06 largest correction to disp= 2.900697e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000824089, limit = 0.001, normalization = 0.000188308, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00182705, limit = 0.001, normalization = 0.360367, conv = false ---[precice]  iteration: 6 of 100, time-window: 3655, time: 0.0003654 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3655 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.654000e-04 actual step time=3.655000e-04 actual total time=3.655000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000867 time avg. forc= 0.000025 largest residual force= 0.000215 in node 1333 and dof 2 largest increment of disp= 3.420679e-06 largest correction to disp= 2.256175e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000867 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.420679e-06 largest correction to disp= 2.901238e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000228037, limit = 0.001, normalization = 0.000188306, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00486105, limit = 0.001, normalization = 0.360883, conv = false ---[precice]  iteration: 7 of 100, time-window: 3655, time: 0.0003654 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3655 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.654000e-04 actual step time=3.655000e-04 actual total time=3.655000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000867 time avg. forc= 0.000025 largest residual force= 0.000215 in node 1333 and dof 2 largest increment of disp= 3.420679e-06 largest correction to disp= 2.256031e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000867 time avg. forc= 0.000025 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.420679e-06 largest correction to disp= 2.901322e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.10509e-05, limit = 0.001, normalization = 0.000188306, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000455356, limit = 0.001, normalization = 0.361075, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3656, time: 0.0003655 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3656 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.655000e-04 actual step time=3.656000e-04 actual total time=3.656000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000699 time avg. forc= 0.000026 largest residual force= 0.000431 in node 973 and dof 3 largest increment of disp= 7.744979e-06 largest correction to disp= 6.249097e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000699 time avg. forc= 0.000026 largest residual force= 0.000000 in node 972 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 2.116960e-07 in node 973 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.120265, limit = 0.001, normalization = 0.000187948, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.33156, limit = 0.001, normalization = 0.908489, conv = false ---[precice]  iteration: 2 of 100, time-window: 3656, time: 0.0003655 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3656 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.655000e-04 actual step time=3.656000e-04 actual total time=3.656000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000675 time avg. forc= 0.000026 largest residual force= 0.000098 in node 1064 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 1.767220e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000675 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 1.374572e-08 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0251566, limit = 0.001, normalization = 0.000188479, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.797292, limit = 0.001, normalization = 0.953551, conv = false ---[precice]  iteration: 3 of 100, time-window: 3656, time: 0.0003655 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3656 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.655000e-04 actual step time=3.656000e-04 actual total time=3.656000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000674 time avg. forc= 0.000026 largest residual force= 0.000098 in node 1064 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 1.761945e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000674 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 1.391834e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00307875, limit = 0.001, normalization = 0.000188542, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0352401, limit = 0.001, normalization = 0.827412, conv = false ---[precice]  iteration: 4 of 100, time-window: 3656, time: 0.0003655 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3656 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.655000e-04 actual step time=3.656000e-04 actual total time=3.656000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000674 time avg. forc= 0.000026 largest residual force= 0.000098 in node 1064 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 1.764013e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000674 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 1.405968e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00157362, limit = 0.001, normalization = 0.000188556, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0353646, limit = 0.001, normalization = 0.827104, conv = false ---[precice]  iteration: 5 of 100, time-window: 3656, time: 0.0003655 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3656 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.655000e-04 actual step time=3.656000e-04 actual total time=3.656000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000675 time avg. forc= 0.000026 largest residual force= 0.008069 in node 1706 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 3.743270e-06 in node 1706 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000674 time avg. forc= 0.000026 largest residual force= 0.000079 in node 1703 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 3.760590e-06 in node 1704 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000674 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1078 and dof 1 largest increment of disp= 7.744979e-06 largest correction to disp= 2.159196e-09 in node 1596 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000292882, limit = 0.001, normalization = 0.000188553, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0027895, limit = 0.001, normalization = 0.827449, conv = false ---[precice]  iteration: 6 of 100, time-window: 3656, time: 0.0003655 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3656 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.655000e-04 actual step time=3.656000e-04 actual total time=3.656000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000674 time avg. forc= 0.000026 largest residual force= 0.000098 in node 1064 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 1.760514e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000674 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 1.403570e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000117801, limit = 0.001, normalization = 0.000188555, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00118347, limit = 0.001, normalization = 0.827667, conv = false ---[precice]  iteration: 7 of 100, time-window: 3656, time: 0.0003655 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3656 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.655000e-04 actual step time=3.656000e-04 actual total time=3.656000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000674 time avg. forc= 0.000026 largest residual force= 0.000098 in node 1064 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 1.760567e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000674 time avg. forc= 0.000026 largest residual force= 0.000056 in node 848 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 2.188348e-08 in node 869 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000674 time avg. forc= 0.000026 largest residual force= 0.000000 in node 869 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 2.162415e-08 in node 974 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 6.99957e-05, limit = 0.001, normalization = 0.000188555, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00121605, limit = 0.001, normalization = 0.827663, conv = false ---[precice]  iteration: 8 of 100, time-window: 3656, time: 0.0003655 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3656 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.655000e-04 actual step time=3.656000e-04 actual total time=3.656000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000674 time avg. forc= 0.000026 largest residual force= 0.000098 in node 1064 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 1.760731e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000674 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 7.744979e-06 largest correction to disp= 1.403344e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.66958e-05, limit = 0.001, normalization = 0.000188555, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00022692, limit = 0.001, normalization = 0.827668, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3657, time: 0.0003656 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3657 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.656000e-04 actual step time=3.657000e-04 actual total time=3.657000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000692 time avg. forc= 0.000026 largest residual force= 0.000128 in node 1384 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 4.377727e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000692 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 1.266453e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0922947, limit = 0.001, normalization = 0.000189593, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.02213, limit = 0.001, normalization = 0.504139, conv = false ---[precice]  iteration: 2 of 100, time-window: 3657, time: 0.0003656 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3657 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.656000e-04 actual step time=3.657000e-04 actual total time=3.657000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000694 time avg. forc= 0.000026 largest residual force= 0.000113 in node 1279 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 3.491474e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000694 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 1.345869e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0112857, limit = 0.001, normalization = 0.000190158, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.370696, limit = 0.001, normalization = 0.808257, conv = false ---[precice]  iteration: 3 of 100, time-window: 3657, time: 0.0003656 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3657 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.656000e-04 actual step time=3.657000e-04 actual total time=3.657000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000693 time avg. forc= 0.000026 largest residual force= 0.000109 in node 1384 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 3.528454e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000693 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 1.260113e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00330703, limit = 0.001, normalization = 0.000190203, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00632154, limit = 0.001, normalization = 0.808204, conv = false ---[precice]  iteration: 4 of 100, time-window: 3657, time: 0.0003656 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3657 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.656000e-04 actual step time=3.657000e-04 actual total time=3.657000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000693 time avg. forc= 0.000026 largest residual force= 0.000109 in node 1384 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 3.520868e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000693 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 1.290383e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00196132, limit = 0.001, normalization = 0.000190186, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0280586, limit = 0.001, normalization = 0.808323, conv = false ---[precice]  iteration: 5 of 100, time-window: 3657, time: 0.0003656 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3657 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.656000e-04 actual step time=3.657000e-04 actual total time=3.657000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000693 time avg. forc= 0.000026 largest residual force= 0.000109 in node 1384 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 3.517115e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000693 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 1.284657e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000633275, limit = 0.001, normalization = 0.000190192, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00570911, limit = 0.001, normalization = 0.808149, conv = false ---[precice]  iteration: 6 of 100, time-window: 3657, time: 0.0003656 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3657 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.656000e-04 actual step time=3.657000e-04 actual total time=3.657000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000693 time avg. forc= 0.000026 largest residual force= 0.000109 in node 1384 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 3.517299e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000693 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 1.280665e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000115808, limit = 0.001, normalization = 0.000190195, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00295827, limit = 0.001, normalization = 0.808088, conv = false ---[precice]  iteration: 7 of 100, time-window: 3657, time: 0.0003656 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3657 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.656000e-04 actual step time=3.657000e-04 actual total time=3.657000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000693 time avg. forc= 0.000026 largest residual force= 0.000109 in node 1384 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 3.518491e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000693 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 1.280744e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.40055e-05, limit = 0.001, normalization = 0.000190194, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00157139, limit = 0.001, normalization = 0.808113, conv = false ---[precice]  iteration: 8 of 100, time-window: 3657, time: 0.0003656 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3657 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.656000e-04 actual step time=3.657000e-04 actual total time=3.657000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000693 time avg. forc= 0.000026 largest residual force= 0.000109 in node 1384 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 3.518463e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000693 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 6.407261e-06 largest correction to disp= 1.281114e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.25375e-05, limit = 0.001, normalization = 0.000190193, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000211673, limit = 0.001, normalization = 0.808113, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3658, time: 0.0003657 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3658 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.657000e-04 actual step time=3.658000e-04 actual total time=3.658000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000951 time avg. forc= 0.000026 largest residual force= 0.000206 in node 1128 and dof 2 largest increment of disp= 6.118079e-06 largest correction to disp= 4.862427e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000951 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 6.118079e-06 largest correction to disp= 1.858546e-08 in node 1352 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.106502, limit = 0.001, normalization = 0.000189424, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.78503, limit = 0.001, normalization = 0.944755, conv = false ---[precice]  iteration: 2 of 100, time-window: 3658, time: 0.0003657 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3658 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.657000e-04 actual step time=3.658000e-04 actual total time=3.658000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000917 time avg. forc= 0.000026 largest residual force= 0.000211 in node 1128 and dof 2 largest increment of disp= 6.118079e-06 largest correction to disp= 1.513700e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000917 time avg. forc= 0.000026 largest residual force= 0.000001 in node 371 and dof 2 largest increment of disp= 6.118079e-06 largest correction to disp= 2.039030e-08 in node 1383 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000917 time avg. forc= 0.000026 largest residual force= 0.000000 in node 57 and dof 2 largest increment of disp= 6.118079e-06 largest correction to disp= 6.310042e-10 in node 371 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0162108, limit = 0.001, normalization = 0.000188276, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.502363, limit = 0.001, normalization = 0.429585, conv = false ---[precice]  iteration: 3 of 100, time-window: 3658, time: 0.0003657 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3658 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.657000e-04 actual step time=3.658000e-04 actual total time=3.658000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000917 time avg. forc= 0.000026 largest residual force= 0.000211 in node 1128 and dof 2 largest increment of disp= 6.118079e-06 largest correction to disp= 1.523333e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000917 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 6.118079e-06 largest correction to disp= 2.067574e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00260267, limit = 0.001, normalization = 0.00018823, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0188816, limit = 0.001, normalization = 0.423703, conv = false ---[precice]  iteration: 4 of 100, time-window: 3658, time: 0.0003657 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3658 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.657000e-04 actual step time=3.658000e-04 actual total time=3.658000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000917 time avg. forc= 0.000026 largest residual force= 0.000211 in node 1128 and dof 2 largest increment of disp= 6.118079e-06 largest correction to disp= 1.518574e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000917 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 6.118079e-06 largest correction to disp= 2.070444e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000658474, limit = 0.001, normalization = 0.00018823, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0174911, limit = 0.001, normalization = 0.422215, conv = false ---[precice]  iteration: 5 of 100, time-window: 3658, time: 0.0003657 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3658 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.657000e-04 actual step time=3.658000e-04 actual total time=3.658000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000917 time avg. forc= 0.000026 largest residual force= 0.000211 in node 1128 and dof 2 largest increment of disp= 6.118079e-06 largest correction to disp= 1.520015e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000917 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 6.118079e-06 largest correction to disp= 2.070458e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000167324, limit = 0.001, normalization = 0.00018823, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00898055, limit = 0.001, normalization = 0.422325, conv = false ---[precice]  iteration: 6 of 100, time-window: 3658, time: 0.0003657 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3658 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.657000e-04 actual step time=3.658000e-04 actual total time=3.658000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000917 time avg. forc= 0.000026 largest residual force= 0.000211 in node 1128 and dof 2 largest increment of disp= 6.118079e-06 largest correction to disp= 1.519717e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000917 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 6.118079e-06 largest correction to disp= 2.070140e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.73952e-05, limit = 0.001, normalization = 0.000188231, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00610121, limit = 0.001, normalization = 0.422236, conv = false ---[precice]  iteration: 7 of 100, time-window: 3658, time: 0.0003657 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3658 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.657000e-04 actual step time=3.658000e-04 actual total time=3.658000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000917 time avg. forc= 0.000026 largest residual force= 0.000211 in node 1128 and dof 2 largest increment of disp= 6.118079e-06 largest correction to disp= 1.519604e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000917 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 6.118079e-06 largest correction to disp= 2.069376e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.79757e-05, limit = 0.001, normalization = 0.000188232, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00033708, limit = 0.001, normalization = 0.422119, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3659, time: 0.0003658 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3659 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.658000e-04 actual step time=3.659000e-04 actual total time=3.659000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000509 time avg. forc= 0.000026 largest residual force= 0.001130 in node 745 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 6.409539e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000509 time avg. forc= 0.000026 largest residual force= 0.000000 in node 744 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 1.000632e-07 in node 745 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.11998, limit = 0.001, normalization = 0.000188586, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.996968, limit = 0.001, normalization = 0.721801, conv = false ---[precice]  iteration: 2 of 100, time-window: 3659, time: 0.0003658 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3659 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.658000e-04 actual step time=3.659000e-04 actual total time=3.659000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000521 time avg. forc= 0.000026 largest residual force= 0.000096 in node 867 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 3.019275e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000521 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1404 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 9.185876e-09 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00918853, limit = 0.001, normalization = 0.000190555, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.277417, limit = 0.001, normalization = 1.08699, conv = false ---[precice]  iteration: 3 of 100, time-window: 3659, time: 0.0003658 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3659 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.658000e-04 actual step time=3.659000e-04 actual total time=3.659000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000519 time avg. forc= 0.000026 largest residual force= 0.000095 in node 1699 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 3.089855e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000519 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 1.118354e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00126176, limit = 0.001, normalization = 0.000190373, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0390501, limit = 0.001, normalization = 1.04714, conv = false ---[precice]  iteration: 4 of 100, time-window: 3659, time: 0.0003658 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3659 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.658000e-04 actual step time=3.659000e-04 actual total time=3.659000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000519 time avg. forc= 0.000026 largest residual force= 0.000095 in node 1699 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 3.080019e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000519 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 1.114754e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000581316, limit = 0.001, normalization = 0.000190376, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00833368, limit = 0.001, normalization = 1.04142, conv = false ---[precice]  iteration: 5 of 100, time-window: 3659, time: 0.0003658 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3659 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.658000e-04 actual step time=3.659000e-04 actual total time=3.659000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000519 time avg. forc= 0.000026 largest residual force= 0.000095 in node 1699 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 3.076218e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000519 time avg. forc= 0.000026 largest residual force= 0.000001 in node 1065 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 1.121506e-08 in node 1598 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000519 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1065 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 1.041884e-09 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000219156, limit = 0.001, normalization = 0.000190373, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00342003, limit = 0.001, normalization = 1.04121, conv = false ---[precice]  iteration: 6 of 100, time-window: 3659, time: 0.0003658 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3659 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.658000e-04 actual step time=3.659000e-04 actual total time=3.659000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000519 time avg. forc= 0.000026 largest residual force= 0.000095 in node 1699 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 3.076982e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000519 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 1.116241e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.733e-05, limit = 0.001, normalization = 0.000190375, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00256887, limit = 0.001, normalization = 1.04142, conv = false ---[precice]  iteration: 7 of 100, time-window: 3659, time: 0.0003658 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3659 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.658000e-04 actual step time=3.659000e-04 actual total time=3.659000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000519 time avg. forc= 0.000026 largest residual force= 0.000095 in node 1699 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 3.076797e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000519 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 1.117054e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.97632e-05, limit = 0.001, normalization = 0.000190375, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00138387, limit = 0.001, normalization = 1.04132, conv = false ---[precice]  iteration: 8 of 100, time-window: 3659, time: 0.0003658 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3659 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.658000e-04 actual step time=3.659000e-04 actual total time=3.659000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000519 time avg. forc= 0.000026 largest residual force= 0.000095 in node 1699 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 3.076763e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000519 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 9.208196e-06 largest correction to disp= 1.117473e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.12594e-05, limit = 0.001, normalization = 0.000190374, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000268274, limit = 0.001, normalization = 1.04132, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3660, time: 0.0003659 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3660 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.659000e-04 actual step time=3.660000e-04 actual total time=3.660000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000960 time avg. forc= 0.000026 largest residual force= 0.000250 in node 1333 and dof 2 largest increment of disp= 3.689390e-06 largest correction to disp= 1.874428e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000960 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.689390e-06 largest correction to disp= 3.973894e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0877772, limit = 0.001, normalization = 0.000190022, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.28912, limit = 0.001, normalization = 0.707983, conv = false ---[precice]  iteration: 2 of 100, time-window: 3660, time: 0.0003659 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3660 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.659000e-04 actual step time=3.660000e-04 actual total time=3.660000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000941 time avg. forc= 0.000026 largest residual force= 0.000257 in node 1333 and dof 2 largest increment of disp= 3.689390e-06 largest correction to disp= 2.557620e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000941 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.689390e-06 largest correction to disp= 3.519004e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00821427, limit = 0.001, normalization = 0.00018893, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.00587, limit = 0.001, normalization = 0.396819, conv = false ---[precice]  iteration: 3 of 100, time-window: 3660, time: 0.0003659 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3660 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.659000e-04 actual step time=3.660000e-04 actual total time=3.660000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000939 time avg. forc= 0.000026 largest residual force= 0.000255 in node 1333 and dof 2 largest increment of disp= 3.689390e-06 largest correction to disp= 2.472249e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000939 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.689390e-06 largest correction to disp= 3.767709e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00148444, limit = 0.001, normalization = 0.000188802, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0514056, limit = 0.001, normalization = 0.404617, conv = false ---[precice]  iteration: 4 of 100, time-window: 3660, time: 0.0003659 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3660 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.659000e-04 actual step time=3.660000e-04 actual total time=3.660000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000939 time avg. forc= 0.000026 largest residual force= 0.000255 in node 1333 and dof 2 largest increment of disp= 3.689390e-06 largest correction to disp= 2.476560e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000939 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.689390e-06 largest correction to disp= 3.775734e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000738026, limit = 0.001, normalization = 0.000188811, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0351454, limit = 0.001, normalization = 0.40428, conv = false ---[precice]  iteration: 5 of 100, time-window: 3660, time: 0.0003659 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3660 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.659000e-04 actual step time=3.660000e-04 actual total time=3.660000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000939 time avg. forc= 0.000026 largest residual force= 0.000255 in node 1333 and dof 2 largest increment of disp= 3.689390e-06 largest correction to disp= 2.477927e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000939 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.689390e-06 largest correction to disp= 3.774851e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000196845, limit = 0.001, normalization = 0.000188808, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0131097, limit = 0.001, normalization = 0.403902, conv = false ---[precice]  iteration: 6 of 100, time-window: 3660, time: 0.0003659 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3660 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.659000e-04 actual step time=3.660000e-04 actual total time=3.660000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000939 time avg. forc= 0.000026 largest residual force= 0.000255 in node 1333 and dof 2 largest increment of disp= 3.689390e-06 largest correction to disp= 2.477560e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000939 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.689390e-06 largest correction to disp= 3.774759e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.57973e-05, limit = 0.001, normalization = 0.000188808, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00228981, limit = 0.001, normalization = 0.403541, conv = false ---[precice]  iteration: 7 of 100, time-window: 3660, time: 0.0003659 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3660 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.659000e-04 actual step time=3.660000e-04 actual total time=3.660000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000939 time avg. forc= 0.000026 largest residual force= 0.000255 in node 1333 and dof 2 largest increment of disp= 3.689390e-06 largest correction to disp= 2.477621e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000939 time avg. forc= 0.000026 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.689390e-06 largest correction to disp= 3.774637e-08 in node 1311 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.08862e-05, limit = 0.001, normalization = 0.000188807, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000877744, limit = 0.001, normalization = 0.403629, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3661, time: 0.000366 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3661 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.660000e-04 actual step time=3.661000e-04 actual total time=3.661000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000768 time avg. forc= 0.000027 largest residual force= 0.000170 in node 867 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 6.756998e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000768 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1140 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 1.454231e-08 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.130363, limit = 0.001, normalization = 0.00018834, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.3555, limit = 0.001, normalization = 0.967167, conv = false ---[precice]  iteration: 2 of 100, time-window: 3661, time: 0.000366 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3661 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.660000e-04 actual step time=3.661000e-04 actual total time=3.661000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000741 time avg. forc= 0.000027 largest residual force= 0.000124 in node 1064 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 1.878709e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000741 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 1.651569e-08 in node 1077 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0138956, limit = 0.001, normalization = 0.000188869, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.495373, limit = 0.001, normalization = 0.889174, conv = false ---[precice]  iteration: 3 of 100, time-window: 3661, time: 0.000366 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3661 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.660000e-04 actual step time=3.661000e-04 actual total time=3.661000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000740 time avg. forc= 0.000027 largest residual force= 0.000124 in node 1064 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 1.879949e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000740 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 1.724202e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00224445, limit = 0.001, normalization = 0.000189004, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0423581, limit = 0.001, normalization = 0.891565, conv = false ---[precice]  iteration: 4 of 100, time-window: 3661, time: 0.000366 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3661 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.660000e-04 actual step time=3.661000e-04 actual total time=3.661000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000740 time avg. forc= 0.000027 largest residual force= 0.000124 in node 1064 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 1.860214e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000740 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 1.703020e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00107546, limit = 0.001, normalization = 0.000188991, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.021534, limit = 0.001, normalization = 0.890516, conv = false ---[precice]  iteration: 5 of 100, time-window: 3661, time: 0.000366 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3661 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.660000e-04 actual step time=3.661000e-04 actual total time=3.661000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000740 time avg. forc= 0.000027 largest residual force= 0.000124 in node 1064 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 1.857257e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000740 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 1.712810e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000412041, limit = 0.001, normalization = 0.000188999, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0190039, limit = 0.001, normalization = 0.890391, conv = false ---[precice]  iteration: 6 of 100, time-window: 3661, time: 0.000366 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3661 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.660000e-04 actual step time=3.661000e-04 actual total time=3.661000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000740 time avg. forc= 0.000027 largest residual force= 0.000124 in node 1064 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 1.856100e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000740 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 1.709578e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000172888, limit = 0.001, normalization = 0.000188997, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0059109, limit = 0.001, normalization = 0.890455, conv = false ---[precice]  iteration: 7 of 100, time-window: 3661, time: 0.000366 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3661 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.660000e-04 actual step time=3.661000e-04 actual total time=3.661000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000740 time avg. forc= 0.000027 largest residual force= 0.000124 in node 1064 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 1.855639e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000740 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 1.707718e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.35781e-05, limit = 0.001, normalization = 0.000188996, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00168984, limit = 0.001, normalization = 0.890487, conv = false ---[precice]  iteration: 8 of 100, time-window: 3661, time: 0.000366 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3661 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.660000e-04 actual step time=3.661000e-04 actual total time=3.661000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000740 time avg. forc= 0.000027 largest residual force= 0.000124 in node 1064 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 1.855589e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000740 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 8.345676e-06 largest correction to disp= 1.708159e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 9.26039e-06, limit = 0.001, normalization = 0.000188997, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000297665, limit = 0.001, normalization = 0.89048, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3662, time: 0.0003661 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3662 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.661000e-04 actual step time=3.662000e-04 actual total time=3.662000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000744 time avg. forc= 0.000027 largest residual force= 0.000153 in node 1384 and dof 2 largest increment of disp= 7.093889e-06 largest correction to disp= 4.857586e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000744 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 7.093889e-06 largest correction to disp= 1.445261e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.100792, limit = 0.001, normalization = 0.000190199, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.10934, limit = 0.001, normalization = 0.507213, conv = false ---[precice]  iteration: 2 of 100, time-window: 3662, time: 0.0003661 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3662 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.661000e-04 actual step time=3.662000e-04 actual total time=3.662000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000746 time avg. forc= 0.000027 largest residual force= 0.000129 in node 1384 and dof 2 largest increment of disp= 7.093889e-06 largest correction to disp= 3.864680e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000745 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 7.093889e-06 largest correction to disp= 1.501549e-08 in node 1319 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0162904, limit = 0.001, normalization = 0.000190937, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.202541, limit = 0.001, normalization = 0.888871, conv = false ---[precice]  iteration: 3 of 100, time-window: 3662, time: 0.0003661 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3662 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.661000e-04 actual step time=3.662000e-04 actual total time=3.662000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000745 time avg. forc= 0.000027 largest residual force= 0.000129 in node 1384 and dof 2 largest increment of disp= 7.093889e-06 largest correction to disp= 3.870232e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000745 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 7.093889e-06 largest correction to disp= 1.464683e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00276528, limit = 0.001, normalization = 0.000190941, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0478, limit = 0.001, normalization = 0.888208, conv = false ---[precice]  iteration: 4 of 100, time-window: 3662, time: 0.0003661 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3662 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.661000e-04 actual step time=3.662000e-04 actual total time=3.662000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000745 time avg. forc= 0.000027 largest residual force= 0.000128 in node 1384 and dof 2 largest increment of disp= 7.093889e-06 largest correction to disp= 3.841626e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000745 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 7.093889e-06 largest correction to disp= 1.465760e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000675433, limit = 0.001, normalization = 0.000190959, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0256581, limit = 0.001, normalization = 0.887947, conv = false ---[precice]  iteration: 5 of 100, time-window: 3662, time: 0.0003661 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3662 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.661000e-04 actual step time=3.662000e-04 actual total time=3.662000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000745 time avg. forc= 0.000027 largest residual force= 0.000128 in node 1384 and dof 2 largest increment of disp= 7.093889e-06 largest correction to disp= 3.838174e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000745 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 7.093889e-06 largest correction to disp= 1.458633e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000204765, limit = 0.001, normalization = 0.000190966, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00794024, limit = 0.001, normalization = 0.88818, conv = false ---[precice]  iteration: 6 of 100, time-window: 3662, time: 0.0003661 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3662 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.661000e-04 actual step time=3.662000e-04 actual total time=3.662000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000745 time avg. forc= 0.000027 largest residual force= 0.000128 in node 1384 and dof 2 largest increment of disp= 7.093889e-06 largest correction to disp= 3.839539e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000745 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 7.093889e-06 largest correction to disp= 1.460661e-08 in node 1065 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.23491e-05, limit = 0.001, normalization = 0.000190964, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000987278, limit = 0.001, normalization = 0.88812, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3663, time: 0.0003662 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3663 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.662000e-04 actual step time=3.663000e-04 actual total time=3.663000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001037 time avg. forc= 0.000027 largest residual force= 0.000243 in node 1128 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 5.219318e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001036 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 2.261202e-08 in node 973 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.114843, limit = 0.001, normalization = 0.000190053, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.82042, limit = 0.001, normalization = 1.00314, conv = false ---[precice]  iteration: 2 of 100, time-window: 3663, time: 0.0003662 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3663 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.662000e-04 actual step time=3.663000e-04 actual total time=3.663000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001000 time avg. forc= 0.000027 largest residual force= 0.000248 in node 1128 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 1.668590e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001000 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 2.523077e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0107173, limit = 0.001, normalization = 0.000188548, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0657533, limit = 0.001, normalization = 0.523466, conv = false ---[precice]  iteration: 3 of 100, time-window: 3663, time: 0.0003662 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3663 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.662000e-04 actual step time=3.663000e-04 actual total time=3.663000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001000 time avg. forc= 0.000027 largest residual force= 0.000248 in node 1128 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 1.696236e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001000 time avg. forc= 0.000027 largest residual force= 0.000038 in node 784 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 2.496435e-08 in node 973 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001000 time avg. forc= 0.000027 largest residual force= 0.000000 in node 827 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 4.064994e-09 in node 827 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00346742, limit = 0.001, normalization = 0.000188639, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.308826, limit = 0.001, normalization = 0.448458, conv = false ---[precice]  iteration: 4 of 100, time-window: 3663, time: 0.0003662 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3663 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.662000e-04 actual step time=3.663000e-04 actual total time=3.663000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001000 time avg. forc= 0.000027 largest residual force= 0.000248 in node 1128 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 1.692727e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001000 time avg. forc= 0.000027 largest residual force= 0.000007 in node 980 and dof 3 largest increment of disp= 6.599497e-06 largest correction to disp= 2.494354e-08 in node 973 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001000 time avg. forc= 0.000027 largest residual force= 0.000000 in node 980 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 3.587787e-09 in node 980 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00217624, limit = 0.001, normalization = 0.000188631, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.223445, limit = 0.001, normalization = 0.448254, conv = false ---[precice]  iteration: 5 of 100, time-window: 3663, time: 0.0003662 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3663 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.662000e-04 actual step time=3.663000e-04 actual total time=3.663000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001000 time avg. forc= 0.000027 largest residual force= 0.000248 in node 1128 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 1.685015e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001000 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 2.491736e-08 in node 973 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000515192, limit = 0.001, normalization = 0.000188612, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0336302, limit = 0.001, normalization = 0.447355, conv = false ---[precice]  iteration: 6 of 100, time-window: 3663, time: 0.0003662 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3663 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.662000e-04 actual step time=3.663000e-04 actual total time=3.663000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001000 time avg. forc= 0.000027 largest residual force= 0.000248 in node 1128 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 1.682399e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001000 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 2.490668e-08 in node 973 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000150036, limit = 0.001, normalization = 0.000188608, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00632575, limit = 0.001, normalization = 0.44741, conv = false ---[precice]  iteration: 7 of 100, time-window: 3663, time: 0.0003662 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3663 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.662000e-04 actual step time=3.663000e-04 actual total time=3.663000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001000 time avg. forc= 0.000027 largest residual force= 0.001874 in node 754 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 1.682523e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001000 time avg. forc= 0.000027 largest residual force= 0.000004 in node 649 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 2.848438e-07 in node 754 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001000 time avg. forc= 0.000027 largest residual force= 0.000000 in node 649 and dof 2 largest increment of disp= 6.599497e-06 largest correction to disp= 1.940647e-10 in node 754 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.47045e-05, limit = 0.001, normalization = 0.000188609, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000981653, limit = 0.001, normalization = 0.447274, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3664, time: 0.0003663 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3664 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.663000e-04 actual step time=3.664000e-04 actual total time=3.664000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000551 time avg. forc= 0.000027 largest residual force= 0.000215 in node 1079 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 7.001466e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000551 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1384 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 2.066962e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.13074, limit = 0.001, normalization = 0.000189013, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.00289, limit = 0.001, normalization = 0.769827, conv = false ---[precice]  iteration: 2 of 100, time-window: 3664, time: 0.0003663 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3664 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.663000e-04 actual step time=3.664000e-04 actual total time=3.664000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000562 time avg. forc= 0.000027 largest residual force= 0.000114 in node 867 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 3.289576e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000562 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 1.245363e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00561882, limit = 0.001, normalization = 0.000191179, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0495043, limit = 0.001, normalization = 1.17102, conv = false ---[precice]  iteration: 3 of 100, time-window: 3664, time: 0.0003663 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3664 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.663000e-04 actual step time=3.664000e-04 actual total time=3.664000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000562 time avg. forc= 0.000027 largest residual force= 0.001841 in node 1067 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 3.339317e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000561 time avg. forc= 0.000027 largest residual force= 0.000017 in node 1067 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 7.340071e-07 in node 1067 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000561 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1067 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 7.225732e-10 in node 1067 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00262289, limit = 0.001, normalization = 0.000191114, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0271879, limit = 0.001, normalization = 1.13384, conv = false ---[precice]  iteration: 4 of 100, time-window: 3664, time: 0.0003663 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3664 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.663000e-04 actual step time=3.664000e-04 actual total time=3.664000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000561 time avg. forc= 0.000027 largest residual force= 0.000112 in node 867 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 3.328566e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000561 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 1.339407e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000849359, limit = 0.001, normalization = 0.000191123, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00662164, limit = 0.001, normalization = 1.13294, conv = false ---[precice]  iteration: 5 of 100, time-window: 3664, time: 0.0003663 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3664 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.663000e-04 actual step time=3.664000e-04 actual total time=3.664000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000561 time avg. forc= 0.000027 largest residual force= 0.000112 in node 867 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 3.318292e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000561 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 1.341265e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000438165, limit = 0.001, normalization = 0.000191126, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00303346, limit = 0.001, normalization = 1.13279, conv = false ---[precice]  iteration: 6 of 100, time-window: 3664, time: 0.0003663 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3664 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.663000e-04 actual step time=3.664000e-04 actual total time=3.664000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000561 time avg. forc= 0.000027 largest residual force= 0.000112 in node 867 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 3.314436e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000561 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 1.342011e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000148406, limit = 0.001, normalization = 0.000191127, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00186758, limit = 0.001, normalization = 1.13321, conv = false ---[precice]  iteration: 7 of 100, time-window: 3664, time: 0.0003663 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3664 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.663000e-04 actual step time=3.664000e-04 actual total time=3.664000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000561 time avg. forc= 0.000027 largest residual force= 0.000112 in node 867 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 3.313673e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000561 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 1.341420e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.645e-05, limit = 0.001, normalization = 0.000191128, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00131133, limit = 0.001, normalization = 1.1333, conv = false ---[precice]  iteration: 8 of 100, time-window: 3664, time: 0.0003663 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3664 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.663000e-04 actual step time=3.664000e-04 actual total time=3.664000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000561 time avg. forc= 0.000027 largest residual force= 0.000388 in node 1213 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 3.308125e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000561 time avg. forc= 0.000027 largest residual force= 0.000006 in node 1103 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 1.653486e-07 in node 1213 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000561 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1069 and dof 2 largest increment of disp= 1.005019e-05 largest correction to disp= 3.049910e-09 in node 1103 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.25085e-05, limit = 0.001, normalization = 0.000191128, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 2.93588e-05, limit = 0.001, normalization = 1.13324, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3665, time: 0.0003664 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3665 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.664000e-04 actual step time=3.665000e-04 actual total time=3.665000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001039 time avg. forc= 0.000027 largest residual force= 0.000290 in node 1333 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 2.058028e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001039 time avg. forc= 0.000027 largest residual force= 0.000001 in node 1279 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 5.068148e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001039 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 6.624790e-11 in node 1278 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.094964, limit = 0.001, normalization = 0.00019076, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.36544, limit = 0.001, normalization = 0.736, conv = false ---[precice]  iteration: 2 of 100, time-window: 3665, time: 0.0003664 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3665 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.664000e-04 actual step time=3.665000e-04 actual total time=3.665000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001015 time avg. forc= 0.000027 largest residual force= 0.000295 in node 1333 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 3.111660e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001015 time avg. forc= 0.000027 largest residual force= 0.000001 in node 1279 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 4.428901e-08 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001015 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 7.268043e-11 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0263939, limit = 0.001, normalization = 0.000189233, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.343918, limit = 0.001, normalization = 0.680669, conv = false ---[precice]  iteration: 3 of 100, time-window: 3665, time: 0.0003664 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3665 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.664000e-04 actual step time=3.665000e-04 actual total time=3.665000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001016 time avg. forc= 0.000027 largest residual force= 0.000296 in node 1333 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 2.745787e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001016 time avg. forc= 0.000027 largest residual force= 0.000002 in node 1279 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 4.794565e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001016 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1464 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 6.809141e-11 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0030369, limit = 0.001, normalization = 0.000189385, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.145064, limit = 0.001, normalization = 0.451052, conv = false ---[precice]  iteration: 4 of 100, time-window: 3665, time: 0.0003664 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3665 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.664000e-04 actual step time=3.665000e-04 actual total time=3.665000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001016 time avg. forc= 0.000027 largest residual force= 0.000296 in node 1333 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 2.750840e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001016 time avg. forc= 0.000027 largest residual force= 0.000002 in node 1279 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 4.787802e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001016 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 6.723390e-11 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00241008, limit = 0.001, normalization = 0.000189364, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0176876, limit = 0.001, normalization = 0.451666, conv = false ---[precice]  iteration: 5 of 100, time-window: 3665, time: 0.0003664 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3665 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.664000e-04 actual step time=3.665000e-04 actual total time=3.665000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001016 time avg. forc= 0.000027 largest residual force= 0.000296 in node 1333 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 2.744271e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001016 time avg. forc= 0.000027 largest residual force= 0.000002 in node 1279 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 4.790641e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001016 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 6.718828e-11 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000568352, limit = 0.001, normalization = 0.000189364, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00510808, limit = 0.001, normalization = 0.451409, conv = false ---[precice]  iteration: 6 of 100, time-window: 3665, time: 0.0003664 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3665 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.664000e-04 actual step time=3.665000e-04 actual total time=3.665000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001016 time avg. forc= 0.000027 largest residual force= 0.000296 in node 1333 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 2.745253e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001016 time avg. forc= 0.000027 largest residual force= 0.000002 in node 1279 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 4.788777e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001016 time avg. forc= 0.000027 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 3.969968e-06 largest correction to disp= 6.716572e-11 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000166933, limit = 0.001, normalization = 0.000189364, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000834148, limit = 0.001, normalization = 0.452233, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3666, time: 0.0003665 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3666 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.665000e-04 actual step time=3.666000e-04 actual total time=3.666000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000844 time avg. forc= 0.000028 largest residual force= 0.000200 in node 867 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 7.333499e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000844 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1140 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 1.769907e-08 in node 1330 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.141283, limit = 0.001, normalization = 0.000188762, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.37937, limit = 0.001, normalization = 1.03598, conv = false ---[precice]  iteration: 2 of 100, time-window: 3666, time: 0.0003665 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3666 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.665000e-04 actual step time=3.666000e-04 actual total time=3.666000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.000147 in node 1064 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 2.054466e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 2.102080e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0285274, limit = 0.001, normalization = 0.000189405, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.289656, limit = 0.001, normalization = 1.01323, conv = false ---[precice]  iteration: 3 of 100, time-window: 3666, time: 0.0003665 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3666 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.665000e-04 actual step time=3.666000e-04 actual total time=3.666000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.000147 in node 1064 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 2.014796e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 2.133621e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00814382, limit = 0.001, normalization = 0.000189479, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0596749, limit = 0.001, normalization = 0.959848, conv = false ---[precice]  iteration: 4 of 100, time-window: 3666, time: 0.0003665 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3666 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.665000e-04 actual step time=3.666000e-04 actual total time=3.666000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.000147 in node 1064 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 1.999753e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 2.109138e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00126427, limit = 0.001, normalization = 0.000189466, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0108472, limit = 0.001, normalization = 0.957879, conv = false ---[precice]  iteration: 5 of 100, time-window: 3666, time: 0.0003665 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3666 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.665000e-04 actual step time=3.666000e-04 actual total time=3.666000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.000148 in node 1064 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 1.992797e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.000008 in node 1949 and dof 3 largest increment of disp= 9.014317e-06 largest correction to disp= 2.099497e-08 in node 1383 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1991 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 1.155147e-09 in node 1949 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000697654, limit = 0.001, normalization = 0.000189462, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00120416, limit = 0.001, normalization = 0.957343, conv = false ---[precice]  iteration: 6 of 100, time-window: 3666, time: 0.0003665 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3666 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.665000e-04 actual step time=3.666000e-04 actual total time=3.666000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.005503 in node 848 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 1.991171e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.000010 in node 952 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 2.873288e-07 in node 848 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.000000 in node 952 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 9.431183e-10 in node 847 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000140756, limit = 0.001, normalization = 0.000189463, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00540937, limit = 0.001, normalization = 0.957563, conv = false ---[precice]  iteration: 7 of 100, time-window: 3666, time: 0.0003665 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3666 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.665000e-04 actual step time=3.666000e-04 actual total time=3.666000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.000148 in node 1064 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 1.991051e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 2.101097e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 6.68514e-05, limit = 0.001, normalization = 0.000189465, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00109648, limit = 0.001, normalization = 0.957572, conv = false ---[precice]  iteration: 8 of 100, time-window: 3666, time: 0.0003665 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3666 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.665000e-04 actual step time=3.666000e-04 actual total time=3.666000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.000148 in node 1064 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 1.991019e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000813 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 9.014317e-06 largest correction to disp= 2.101092e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.50758e-05, limit = 0.001, normalization = 0.000189465, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00039701, limit = 0.001, normalization = 0.957553, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3667, time: 0.0003666 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3667 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.666000e-04 actual step time=3.667000e-04 actual total time=3.667000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000799 time avg. forc= 0.000028 largest residual force= 0.000187 in node 1384 and dof 2 largest increment of disp= 7.829928e-06 largest correction to disp= 5.363990e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000799 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 7.829928e-06 largest correction to disp= 1.834756e-08 in node 1315 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.110087, limit = 0.001, normalization = 0.000190857, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.17507, limit = 0.001, normalization = 0.518681, conv = false ---[precice]  iteration: 2 of 100, time-window: 3667, time: 0.0003666 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3667 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.666000e-04 actual step time=3.667000e-04 actual total time=3.667000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000028 largest residual force= 0.000159 in node 1279 and dof 2 largest increment of disp= 7.829928e-06 largest correction to disp= 4.196434e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 7.829928e-06 largest correction to disp= 1.975547e-08 in node 1288 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0156443, limit = 0.001, normalization = 0.000191779, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.174784, limit = 0.001, normalization = 0.976269, conv = false ---[precice]  iteration: 3 of 100, time-window: 3667, time: 0.0003666 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3667 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.666000e-04 actual step time=3.667000e-04 actual total time=3.667000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000028 largest residual force= 0.000153 in node 1384 and dof 2 largest increment of disp= 7.829928e-06 largest correction to disp= 4.214220e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 7.829928e-06 largest correction to disp= 1.741014e-08 in node 1319 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00451486, limit = 0.001, normalization = 0.000191815, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0339483, limit = 0.001, normalization = 0.976645, conv = false ---[precice]  iteration: 4 of 100, time-window: 3667, time: 0.0003666 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3667 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.666000e-04 actual step time=3.667000e-04 actual total time=3.667000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000028 largest residual force= 0.000153 in node 1384 and dof 2 largest increment of disp= 7.829928e-06 largest correction to disp= 4.172828e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 7.829928e-06 largest correction to disp= 1.729066e-08 in node 1319 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00113415, limit = 0.001, normalization = 0.000191825, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0086034, limit = 0.001, normalization = 0.976147, conv = false ---[precice]  iteration: 5 of 100, time-window: 3667, time: 0.0003666 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3667 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.666000e-04 actual step time=3.667000e-04 actual total time=3.667000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000028 largest residual force= 0.000152 in node 1384 and dof 2 largest increment of disp= 7.829928e-06 largest correction to disp= 4.166671e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 7.829928e-06 largest correction to disp= 1.731236e-08 in node 1319 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000357728, limit = 0.001, normalization = 0.000191831, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00262169, limit = 0.001, normalization = 0.976113, conv = false ---[precice]  iteration: 6 of 100, time-window: 3667, time: 0.0003666 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3667 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.666000e-04 actual step time=3.667000e-04 actual total time=3.667000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000028 largest residual force= 0.000152 in node 1384 and dof 2 largest increment of disp= 7.829928e-06 largest correction to disp= 4.164747e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 7.829928e-06 largest correction to disp= 1.731189e-08 in node 1319 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.87736e-05, limit = 0.001, normalization = 0.000191831, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00133565, limit = 0.001, normalization = 0.976177, conv = false ---[precice]  iteration: 7 of 100, time-window: 3667, time: 0.0003666 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3667 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.666000e-04 actual step time=3.667000e-04 actual total time=3.667000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000028 largest residual force= 0.000152 in node 1384 and dof 2 largest increment of disp= 7.829928e-06 largest correction to disp= 4.164527e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000802 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 7.829928e-06 largest correction to disp= 1.730853e-08 in node 1319 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.2085e-05, limit = 0.001, normalization = 0.000191831, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000490992, limit = 0.001, normalization = 0.976178, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3668, time: 0.0003667 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3668 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.667000e-04 actual step time=3.668000e-04 actual total time=3.668000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001130 time avg. forc= 0.000028 largest residual force= 0.000300 in node 1128 and dof 2 largest increment of disp= 7.075828e-06 largest correction to disp= 5.565532e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001130 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 7.075828e-06 largest correction to disp= 2.983244e-08 in node 1001 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.123792, limit = 0.001, normalization = 0.000190757, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.86239, limit = 0.001, normalization = 1.06005, conv = false ---[precice]  iteration: 2 of 100, time-window: 3668, time: 0.0003667 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3668 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.667000e-04 actual step time=3.668000e-04 actual total time=3.668000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001090 time avg. forc= 0.000028 largest residual force= 0.000308 in node 1128 and dof 2 largest increment of disp= 7.075828e-06 largest correction to disp= 1.839172e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001090 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 7.075828e-06 largest correction to disp= 3.395161e-08 in node 973 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0173653, limit = 0.001, normalization = 0.000189132, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.26028, limit = 0.001, normalization = 0.515901, conv = false ---[precice]  iteration: 3 of 100, time-window: 3668, time: 0.0003667 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3668 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.667000e-04 actual step time=3.668000e-04 actual total time=3.668000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001090 time avg. forc= 0.000028 largest residual force= 0.000306 in node 1128 and dof 2 largest increment of disp= 7.075828e-06 largest correction to disp= 1.860073e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001090 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 7.075828e-06 largest correction to disp= 3.314253e-08 in node 973 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00532895, limit = 0.001, normalization = 0.000189013, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.183128, limit = 0.001, normalization = 0.467091, conv = false ---[precice]  iteration: 4 of 100, time-window: 3668, time: 0.0003667 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3668 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.667000e-04 actual step time=3.668000e-04 actual total time=3.668000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001090 time avg. forc= 0.000028 largest residual force= 0.000306 in node 1128 and dof 2 largest increment of disp= 7.075828e-06 largest correction to disp= 1.849133e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001090 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 7.075828e-06 largest correction to disp= 3.281213e-08 in node 1001 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00203052, limit = 0.001, normalization = 0.000189017, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.122973, limit = 0.001, normalization = 0.479007, conv = false ---[precice]  iteration: 5 of 100, time-window: 3668, time: 0.0003667 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3668 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.667000e-04 actual step time=3.668000e-04 actual total time=3.668000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001093 time avg. forc= 0.000028 largest residual force= 0.014914 in node 1015 and dof 2 largest increment of disp= 7.414557e-06 largest correction to disp= 7.414557e-06 in node 1015 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001090 time avg. forc= 0.000028 largest residual force= 0.000282 in node 1036 and dof 2 largest increment of disp= 7.414557e-06 largest correction to disp= 7.225497e-06 in node 1015 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001090 time avg. forc= 0.000028 largest residual force= 0.000000 in node 956 and dof 2 largest increment of disp= 7.414557e-06 largest correction to disp= 9.197969e-09 in node 851 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000444849, limit = 0.001, normalization = 0.000189008, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0237838, limit = 0.001, normalization = 0.476429, conv = false ---[precice]  iteration: 6 of 100, time-window: 3668, time: 0.0003667 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3668 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.667000e-04 actual step time=3.668000e-04 actual total time=3.668000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001090 time avg. forc= 0.000028 largest residual force= 0.000306 in node 1128 and dof 2 largest increment of disp= 7.075828e-06 largest correction to disp= 1.843532e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001090 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 7.075828e-06 largest correction to disp= 3.285626e-08 in node 1001 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000128828, limit = 0.001, normalization = 0.000189008, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00482885, limit = 0.001, normalization = 0.474126, conv = false ---[precice]  iteration: 7 of 100, time-window: 3668, time: 0.0003667 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3668 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.667000e-04 actual step time=3.668000e-04 actual total time=3.668000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001090 time avg. forc= 0.000028 largest residual force= 0.000306 in node 1128 and dof 2 largest increment of disp= 7.075828e-06 largest correction to disp= 1.843826e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001090 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 7.075828e-06 largest correction to disp= 3.285774e-08 in node 1001 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.67549e-05, limit = 0.001, normalization = 0.000189008, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00262772, limit = 0.001, normalization = 0.47434, conv = false ---[precice]  iteration: 8 of 100, time-window: 3668, time: 0.0003667 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3668 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.667000e-04 actual step time=3.668000e-04 actual total time=3.668000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001090 time avg. forc= 0.000028 largest residual force= 0.000306 in node 1128 and dof 2 largest increment of disp= 7.075828e-06 largest correction to disp= 1.843859e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001090 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 7.075828e-06 largest correction to disp= 3.285896e-08 in node 1001 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.50416e-05, limit = 0.001, normalization = 0.000189008, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000379688, limit = 0.001, normalization = 0.474437, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3669, time: 0.0003668 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3669 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.668000e-04 actual step time=3.669000e-04 actual total time=3.669000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000597 time avg. forc= 0.000028 largest residual force= 0.000258 in node 1079 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 7.672365e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000597 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1384 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 2.590288e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.142467, limit = 0.001, normalization = 0.000189466, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.01085, limit = 0.001, normalization = 0.820777, conv = false ---[precice]  iteration: 2 of 100, time-window: 3669, time: 0.0003668 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3669 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.668000e-04 actual step time=3.669000e-04 actual total time=3.669000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000608 time avg. forc= 0.000028 largest residual force= 0.000135 in node 1699 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 3.572553e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000608 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 1.822036e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0154665, limit = 0.001, normalization = 0.000191911, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.487641, limit = 0.001, normalization = 1.34415, conv = false ---[precice]  iteration: 3 of 100, time-window: 3669, time: 0.0003668 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3669 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.668000e-04 actual step time=3.669000e-04 actual total time=3.669000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000609 time avg. forc= 0.000028 largest residual force= 0.003200 in node 848 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 3.641830e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000608 time avg. forc= 0.000028 largest residual force= 0.000005 in node 847 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 2.014170e-07 in node 847 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000608 time avg. forc= 0.000028 largest residual force= 0.000000 in node 952 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 3.217924e-10 in node 847 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00475056, limit = 0.001, normalization = 0.000191921, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0387612, limit = 0.001, normalization = 1.23057, conv = false ---[precice]  iteration: 4 of 100, time-window: 3669, time: 0.0003668 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3669 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.668000e-04 actual step time=3.669000e-04 actual total time=3.669000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000608 time avg. forc= 0.000028 largest residual force= 0.000135 in node 867 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 3.606576e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000608 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 1.692364e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00194986, limit = 0.001, normalization = 0.000191956, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0324118, limit = 0.001, normalization = 1.23797, conv = false ---[precice]  iteration: 5 of 100, time-window: 3669, time: 0.0003668 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3669 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.668000e-04 actual step time=3.669000e-04 actual total time=3.669000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000607 time avg. forc= 0.000028 largest residual force= 0.005309 in node 802 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 3.591408e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000608 time avg. forc= 0.000028 largest residual force= 0.000009 in node 847 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 3.489951e-07 in node 847 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000608 time avg. forc= 0.000028 largest residual force= 0.000000 in node 847 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 5.867783e-10 in node 639 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000864178, limit = 0.001, normalization = 0.000191964, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0167537, limit = 0.001, normalization = 1.23533, conv = false ---[precice]  iteration: 6 of 100, time-window: 3669, time: 0.0003668 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3669 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.668000e-04 actual step time=3.669000e-04 actual total time=3.669000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000608 time avg. forc= 0.000028 largest residual force= 0.000135 in node 867 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 3.589773e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000608 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 1.689590e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00019631, limit = 0.001, normalization = 0.000191968, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00505056, limit = 0.001, normalization = 1.23451, conv = false ---[precice]  iteration: 7 of 100, time-window: 3669, time: 0.0003668 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3669 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.668000e-04 actual step time=3.669000e-04 actual total time=3.669000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000608 time avg. forc= 0.000028 largest residual force= 0.000135 in node 867 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 3.591039e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000608 time avg. forc= 0.000028 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.099454e-05 largest correction to disp= 1.687760e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.00953e-05, limit = 0.001, normalization = 0.000191968, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0007366, limit = 0.001, normalization = 1.23424, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3670, time: 0.0003669 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3670 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.669000e-04 actual step time=3.670000e-04 actual total time=3.670000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001124 time avg. forc= 0.000029 largest residual force= 0.000355 in node 1333 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 2.256041e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001124 time avg. forc= 0.000029 largest residual force= 0.000003 in node 1279 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 6.609903e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001124 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 1.153991e-10 in node 1278 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.102746, limit = 0.001, normalization = 0.000191594, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.44871, limit = 0.001, normalization = 0.763829, conv = false ---[precice]  iteration: 2 of 100, time-window: 3670, time: 0.0003669 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3670 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.669000e-04 actual step time=3.670000e-04 actual total time=3.670000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000362 in node 1333 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 3.149287e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000003 in node 1279 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 5.999750e-08 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 1.301893e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00982353, limit = 0.001, normalization = 0.000190005, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.212734, limit = 0.001, normalization = 0.512522, conv = false ---[precice]  iteration: 3 of 100, time-window: 3670, time: 0.0003669 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3670 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.669000e-04 actual step time=3.670000e-04 actual total time=3.670000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000362 in node 1333 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 3.069465e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000003 in node 1279 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 6.204594e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 1.213673e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00403218, limit = 0.001, normalization = 0.000189977, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0605104, limit = 0.001, normalization = 0.501904, conv = false ---[precice]  iteration: 4 of 100, time-window: 3670, time: 0.0003669 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3670 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.669000e-04 actual step time=3.670000e-04 actual total time=3.670000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000362 in node 1333 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 3.033839e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000003 in node 1279 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 6.204843e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 1.209578e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00082061, limit = 0.001, normalization = 0.000189987, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00911322, limit = 0.001, normalization = 0.505823, conv = false ---[precice]  iteration: 5 of 100, time-window: 3670, time: 0.0003669 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3670 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.669000e-04 actual step time=3.670000e-04 actual total time=3.670000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000362 in node 1333 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 3.028846e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000003 in node 1279 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 6.218762e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 1.209489e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000236933, limit = 0.001, normalization = 0.000189989, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0111863, limit = 0.001, normalization = 0.50791, conv = false ---[precice]  iteration: 6 of 100, time-window: 3670, time: 0.0003669 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3670 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.669000e-04 actual step time=3.670000e-04 actual total time=3.670000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000362 in node 1333 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 3.027347e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000003 in node 1279 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 6.217578e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 1.208926e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 9.71085e-05, limit = 0.001, normalization = 0.000189987, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00287441, limit = 0.001, normalization = 0.508513, conv = false ---[precice]  iteration: 7 of 100, time-window: 3670, time: 0.0003669 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3670 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.669000e-04 actual step time=3.670000e-04 actual total time=3.670000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000362 in node 1333 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 3.027497e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000003 in node 1279 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 6.217953e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001100 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 4.280372e-06 largest correction to disp= 1.208706e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.5301e-05, limit = 0.001, normalization = 0.000189987, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000242392, limit = 0.001, normalization = 0.5087, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3671, time: 0.000367 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3671 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.670000e-04 actual step time=3.671000e-04 actual total time=3.671000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000927 time avg. forc= 0.000029 largest residual force= 0.000238 in node 867 and dof 2 largest increment of disp= 9.735112e-06 largest correction to disp= 7.935866e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000927 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1140 and dof 2 largest increment of disp= 9.735112e-06 largest correction to disp= 2.296853e-08 in node 1330 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.153113, limit = 0.001, normalization = 0.000189217, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.40581, limit = 0.001, normalization = 1.11293, conv = false ---[precice]  iteration: 2 of 100, time-window: 3671, time: 0.000367 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3671 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.670000e-04 actual step time=3.671000e-04 actual total time=3.671000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000893 time avg. forc= 0.000029 largest residual force= 0.000187 in node 1064 and dof 2 largest increment of disp= 9.735112e-06 largest correction to disp= 2.156719e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000893 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 9.735112e-06 largest correction to disp= 2.499833e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0233855, limit = 0.001, normalization = 0.000189903, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.304957, limit = 0.001, normalization = 1.04772, conv = false ---[precice]  iteration: 3 of 100, time-window: 3671, time: 0.000367 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3671 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.670000e-04 actual step time=3.671000e-04 actual total time=3.671000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000893 time avg. forc= 0.000029 largest residual force= 0.000186 in node 1064 and dof 2 largest increment of disp= 9.735112e-06 largest correction to disp= 2.143536e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000893 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 9.735112e-06 largest correction to disp= 2.617904e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00437338, limit = 0.001, normalization = 0.000189981, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0971829, limit = 0.001, normalization = 1.03029, conv = false ---[precice]  iteration: 4 of 100, time-window: 3671, time: 0.000367 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3671 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.670000e-04 actual step time=3.671000e-04 actual total time=3.671000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000893 time avg. forc= 0.000029 largest residual force= 0.000186 in node 1064 and dof 2 largest increment of disp= 9.735112e-06 largest correction to disp= 2.114085e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000893 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 9.735112e-06 largest correction to disp= 2.592908e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00219038, limit = 0.001, normalization = 0.000189972, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0442225, limit = 0.001, normalization = 1.02959, conv = false ---[precice]  iteration: 5 of 100, time-window: 3671, time: 0.000367 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3671 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.670000e-04 actual step time=3.671000e-04 actual total time=3.671000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000893 time avg. forc= 0.000029 largest residual force= 0.000186 in node 1064 and dof 2 largest increment of disp= 9.735112e-06 largest correction to disp= 2.107763e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000893 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 9.735112e-06 largest correction to disp= 2.568861e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000541694, limit = 0.001, normalization = 0.000189961, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0145019, limit = 0.001, normalization = 1.02952, conv = false ---[precice]  iteration: 6 of 100, time-window: 3671, time: 0.000367 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3671 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.670000e-04 actual step time=3.671000e-04 actual total time=3.671000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000893 time avg. forc= 0.000029 largest residual force= 0.000186 in node 1064 and dof 2 largest increment of disp= 9.735112e-06 largest correction to disp= 2.105822e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000893 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 9.735112e-06 largest correction to disp= 2.574903e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000164789, limit = 0.001, normalization = 0.000189965, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00131607, limit = 0.001, normalization = 1.02966, conv = false ---[precice]  iteration: 7 of 100, time-window: 3671, time: 0.000367 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3671 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.670000e-04 actual step time=3.671000e-04 actual total time=3.671000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000893 time avg. forc= 0.000029 largest residual force= 0.000186 in node 1064 and dof 2 largest increment of disp= 9.735112e-06 largest correction to disp= 2.106466e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000893 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1061 and dof 2 largest increment of disp= 9.735112e-06 largest correction to disp= 2.575998e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 6.04289e-05, limit = 0.001, normalization = 0.000189965, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00058064, limit = 0.001, normalization = 1.02971, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3672, time: 0.0003671 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3672 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.671000e-04 actual step time=3.672000e-04 actual total time=3.672000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000859 time avg. forc= 0.000029 largest residual force= 0.000573 in node 347 and dof 2 largest increment of disp= 8.629339e-06 largest correction to disp= 5.918648e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000859 time avg. forc= 0.000029 largest residual force= 0.000000 in node 346 and dof 2 largest increment of disp= 8.629339e-06 largest correction to disp= 2.139852e-07 in node 347 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.120256, limit = 0.001, normalization = 0.000191584, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.25743, limit = 0.001, normalization = 0.524795, conv = false ---[precice]  iteration: 2 of 100, time-window: 3672, time: 0.0003671 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3672 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.671000e-04 actual step time=3.672000e-04 actual total time=3.672000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000862 time avg. forc= 0.000029 largest residual force= 0.000182 in node 1386 and dof 2 largest increment of disp= 8.629339e-06 largest correction to disp= 4.727242e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000862 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 8.629339e-06 largest correction to disp= 2.409822e-08 in node 1288 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.016487, limit = 0.001, normalization = 0.000192791, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0665438, limit = 0.001, normalization = 1.08062, conv = false ---[precice]  iteration: 3 of 100, time-window: 3672, time: 0.0003671 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3672 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.671000e-04 actual step time=3.672000e-04 actual total time=3.672000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000863 time avg. forc= 0.000029 largest residual force= 0.000181 in node 1384 and dof 2 largest increment of disp= 8.629339e-06 largest correction to disp= 4.576941e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000862 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 8.629339e-06 largest correction to disp= 2.183646e-08 in node 1319 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00432924, limit = 0.001, normalization = 0.000192792, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00984457, limit = 0.001, normalization = 1.07325, conv = false ---[precice]  iteration: 4 of 100, time-window: 3672, time: 0.0003671 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3672 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.671000e-04 actual step time=3.672000e-04 actual total time=3.672000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000863 time avg. forc= 0.000029 largest residual force= 0.000179 in node 1384 and dof 2 largest increment of disp= 8.629339e-06 largest correction to disp= 4.517898e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000862 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 8.629339e-06 largest correction to disp= 2.164066e-08 in node 1319 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00196617, limit = 0.001, normalization = 0.00019282, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0273261, limit = 0.001, normalization = 1.07324, conv = false ---[precice]  iteration: 5 of 100, time-window: 3672, time: 0.0003671 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3672 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.671000e-04 actual step time=3.672000e-04 actual total time=3.672000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000863 time avg. forc= 0.000029 largest residual force= 0.001537 in node 1730 and dof 2 largest increment of disp= 8.629339e-06 largest correction to disp= 4.509527e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000862 time avg. forc= 0.000029 largest residual force= 0.000005 in node 1878 and dof 2 largest increment of disp= 8.629339e-06 largest correction to disp= 4.307784e-07 in node 1730 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000862 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1877 and dof 2 largest increment of disp= 8.629339e-06 largest correction to disp= 3.103846e-10 in node 1878 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00154793, limit = 0.001, normalization = 0.000192819, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0137427, limit = 0.001, normalization = 1.07322, conv = false ---[precice]  iteration: 6 of 100, time-window: 3672, time: 0.0003671 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3672 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.671000e-04 actual step time=3.672000e-04 actual total time=3.672000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000863 time avg. forc= 0.000029 largest residual force= 0.000180 in node 1384 and dof 2 largest increment of disp= 8.629339e-06 largest correction to disp= 4.513758e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000862 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 8.629339e-06 largest correction to disp= 2.159386e-08 in node 1319 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000652764, limit = 0.001, normalization = 0.000192811, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00454437, limit = 0.001, normalization = 1.07324, conv = false ---[precice]  iteration: 7 of 100, time-window: 3672, time: 0.0003671 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3672 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.671000e-04 actual step time=3.672000e-04 actual total time=3.672000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000863 time avg. forc= 0.000029 largest residual force= 0.000180 in node 1384 and dof 2 largest increment of disp= 8.629339e-06 largest correction to disp= 4.513650e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000862 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 8.629339e-06 largest correction to disp= 2.159419e-08 in node 1319 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000132075, limit = 0.001, normalization = 0.000192811, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000832134, limit = 0.001, normalization = 1.07324, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3673, time: 0.0003672 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3673 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.672000e-04 actual step time=3.673000e-04 actual total time=3.673000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001231 time avg. forc= 0.000029 largest residual force= 0.000356 in node 1128 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 5.930302e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001231 time avg. forc= 0.000029 largest residual force= 0.000001 in node 1255 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 3.945576e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001231 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 5.966050e-11 in node 1427 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.133407, limit = 0.001, normalization = 0.000191547, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.89864, limit = 0.001, normalization = 1.12784, conv = false ---[precice]  iteration: 2 of 100, time-window: 3673, time: 0.0003672 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3673 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.672000e-04 actual step time=3.673000e-04 actual total time=3.673000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000364 in node 1128 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 2.046287e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000001 in node 1075 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 4.316971e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 7.602266e-06 largest correction to disp= 6.779997e-11 in node 1427 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0316461, limit = 0.001, normalization = 0.000189483, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.583676, limit = 0.001, normalization = 0.54653, conv = false ---[precice]  iteration: 3 of 100, time-window: 3673, time: 0.0003672 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3673 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.672000e-04 actual step time=3.673000e-04 actual total time=3.673000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000364 in node 1128 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 2.072958e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000001 in node 1075 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 4.376468e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 7.602266e-06 largest correction to disp= 6.529511e-11 in node 1022 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00606113, limit = 0.001, normalization = 0.000189441, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.182208, limit = 0.001, normalization = 0.524561, conv = false ---[precice]  iteration: 4 of 100, time-window: 3673, time: 0.0003672 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3673 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.672000e-04 actual step time=3.673000e-04 actual total time=3.673000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000364 in node 1128 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 2.052654e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000001 in node 1075 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 4.352951e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 7.602266e-06 largest correction to disp= 6.504767e-11 in node 1022 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00330374, limit = 0.001, normalization = 0.000189447, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0772895, limit = 0.001, normalization = 0.499655, conv = false ---[precice]  iteration: 5 of 100, time-window: 3673, time: 0.0003672 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3673 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.672000e-04 actual step time=3.673000e-04 actual total time=3.673000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000363 in node 1128 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 2.043198e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000001 in node 1075 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 4.349639e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 7.602266e-06 largest correction to disp= 6.502724e-11 in node 1022 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000435727, limit = 0.001, normalization = 0.000189438, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0245007, limit = 0.001, normalization = 0.502529, conv = false ---[precice]  iteration: 6 of 100, time-window: 3673, time: 0.0003672 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3673 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.672000e-04 actual step time=3.673000e-04 actual total time=3.673000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000363 in node 1128 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 2.045727e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000001 in node 1075 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 4.347073e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 7.602266e-06 largest correction to disp= 6.498940e-11 in node 1022 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000299125, limit = 0.001, normalization = 0.000189435, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00227711, limit = 0.001, normalization = 0.502928, conv = false ---[precice]  iteration: 7 of 100, time-window: 3673, time: 0.0003672 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3673 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.672000e-04 actual step time=3.673000e-04 actual total time=3.673000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000363 in node 1128 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 2.045604e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000008 in node 626 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 4.345156e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000029 largest residual force= 0.000000 in node 626 and dof 2 largest increment of disp= 7.602266e-06 largest correction to disp= 6.162820e-09 in node 626 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00011363, limit = 0.001, normalization = 0.000189435, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000881748, limit = 0.001, normalization = 0.502584, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3674, time: 0.0003673 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3674 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.673000e-04 actual step time=3.674000e-04 actual total time=3.674000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000648 time avg. forc= 0.000030 largest residual force= 0.000309 in node 1079 and dof 2 largest increment of disp= 1.200755e-05 largest correction to disp= 8.396757e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000648 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.200755e-05 largest correction to disp= 3.190974e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.155268, limit = 0.001, normalization = 0.000189953, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.01537, limit = 0.001, normalization = 0.878369, conv = false ---[precice]  iteration: 2 of 100, time-window: 3674, time: 0.0003673 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3674 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.673000e-04 actual step time=3.674000e-04 actual total time=3.674000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000659 time avg. forc= 0.000030 largest residual force= 0.000163 in node 867 and dof 2 largest increment of disp= 1.200755e-05 largest correction to disp= 3.628209e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000659 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.200755e-05 largest correction to disp= 2.068695e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0180196, limit = 0.001, normalization = 0.000193017, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0860523, limit = 0.001, normalization = 1.35579, conv = false ---[precice]  iteration: 3 of 100, time-window: 3674, time: 0.0003673 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3674 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.673000e-04 actual step time=3.674000e-04 actual total time=3.674000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000659 time avg. forc= 0.000030 largest residual force= 0.000165 in node 867 and dof 2 largest increment of disp= 1.200755e-05 largest correction to disp= 3.907742e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000659 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.200755e-05 largest correction to disp= 2.066299e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00240839, limit = 0.001, normalization = 0.000192897, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0537095, limit = 0.001, normalization = 1.33709, conv = false ---[precice]  iteration: 4 of 100, time-window: 3674, time: 0.0003673 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3674 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.673000e-04 actual step time=3.674000e-04 actual total time=3.674000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000659 time avg. forc= 0.000030 largest residual force= 0.000164 in node 867 and dof 2 largest increment of disp= 1.200755e-05 largest correction to disp= 3.877342e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000659 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.200755e-05 largest correction to disp= 2.070676e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00112777, limit = 0.001, normalization = 0.000192905, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0112074, limit = 0.001, normalization = 1.34194, conv = false ---[precice]  iteration: 5 of 100, time-window: 3674, time: 0.0003673 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3674 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.673000e-04 actual step time=3.674000e-04 actual total time=3.674000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000659 time avg. forc= 0.000030 largest residual force= 0.000164 in node 867 and dof 2 largest increment of disp= 1.200755e-05 largest correction to disp= 3.878243e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000659 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.200755e-05 largest correction to disp= 2.070633e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000518751, limit = 0.001, normalization = 0.000192909, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00332003, limit = 0.001, normalization = 1.3438, conv = false ---[precice]  iteration: 6 of 100, time-window: 3674, time: 0.0003673 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3674 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.673000e-04 actual step time=3.674000e-04 actual total time=3.674000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000659 time avg. forc= 0.000030 largest residual force= 0.000164 in node 867 and dof 2 largest increment of disp= 1.200755e-05 largest correction to disp= 3.878048e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000659 time avg. forc= 0.000030 largest residual force= 0.000011 in node 861 and dof 2 largest increment of disp= 1.200755e-05 largest correction to disp= 2.071213e-08 in node 1598 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000659 time avg. forc= 0.000030 largest residual force= 0.000000 in node 861 and dof 2 largest increment of disp= 1.200755e-05 largest correction to disp= 8.005517e-09 in node 830 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 9.51546e-05, limit = 0.001, normalization = 0.000192907, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00146476, limit = 0.001, normalization = 1.34361, conv = false ---[precice]  iteration: 7 of 100, time-window: 3674, time: 0.0003673 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3674 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.673000e-04 actual step time=3.674000e-04 actual total time=3.674000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000659 time avg. forc= 0.000030 largest residual force= 0.000164 in node 867 and dof 2 largest increment of disp= 1.200755e-05 largest correction to disp= 3.876792e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000659 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.200755e-05 largest correction to disp= 2.073730e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 6.13567e-05, limit = 0.001, normalization = 0.000192908, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 3.70039e-05, limit = 0.001, normalization = 1.34362, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3675, time: 0.0003674 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3675 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.674000e-04 actual step time=3.675000e-04 actual total time=3.675000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001216 time avg. forc= 0.000030 largest residual force= 0.000422 in node 1333 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 2.494588e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001216 time avg. forc= 0.000030 largest residual force= 0.000005 in node 1279 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 8.564937e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001216 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 2.167866e-10 in node 1278 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.111192, limit = 0.001, normalization = 0.000192534, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.54054, limit = 0.001, normalization = 0.791849, conv = false ---[precice]  iteration: 2 of 100, time-window: 3675, time: 0.0003674 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3675 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.674000e-04 actual step time=3.675000e-04 actual total time=3.675000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001190 time avg. forc= 0.000030 largest residual force= 0.000431 in node 1333 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 3.381674e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001190 time avg. forc= 0.000030 largest residual force= 0.000005 in node 1279 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 7.826180e-08 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001190 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 2.362880e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0331924, limit = 0.001, normalization = 0.000190755, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.531781, limit = 0.001, normalization = 0.629011, conv = false ---[precice]  iteration: 3 of 100, time-window: 3675, time: 0.0003674 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3675 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.674000e-04 actual step time=3.675000e-04 actual total time=3.675000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001190 time avg. forc= 0.000030 largest residual force= 0.000430 in node 1333 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 3.386829e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001190 time avg. forc= 0.000030 largest residual force= 0.000006 in node 1279 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 7.885267e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001190 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1214 and dof 1 largest increment of disp= 4.622575e-06 largest correction to disp= 2.232546e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00746351, limit = 0.001, normalization = 0.000190724, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.087554, limit = 0.001, normalization = 0.560565, conv = false ---[precice]  iteration: 4 of 100, time-window: 3675, time: 0.0003674 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3675 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.674000e-04 actual step time=3.675000e-04 actual total time=3.675000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001190 time avg. forc= 0.000030 largest residual force= 0.000430 in node 1333 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 3.353488e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001190 time avg. forc= 0.000030 largest residual force= 0.000006 in node 1279 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 7.996592e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001190 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 2.211431e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00264721, limit = 0.001, normalization = 0.000190688, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00832178, limit = 0.001, normalization = 0.572282, conv = false ---[precice]  iteration: 5 of 100, time-window: 3675, time: 0.0003674 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3675 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.674000e-04 actual step time=3.675000e-04 actual total time=3.675000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001190 time avg. forc= 0.000030 largest residual force= 0.000430 in node 1333 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 3.348214e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001190 time avg. forc= 0.000030 largest residual force= 0.000006 in node 1279 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 8.001382e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001190 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 4.248899e-10 in node 1980 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00126103, limit = 0.001, normalization = 0.000190692, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0016171, limit = 0.001, normalization = 0.57199, conv = false ---[precice]  iteration: 6 of 100, time-window: 3675, time: 0.0003674 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3675 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.674000e-04 actual step time=3.675000e-04 actual total time=3.675000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001190 time avg. forc= 0.000030 largest residual force= 0.000430 in node 1333 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 3.347998e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001190 time avg. forc= 0.000030 largest residual force= 0.000006 in node 1279 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 8.002414e-08 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001190 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 4.622575e-06 largest correction to disp= 2.209342e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000323691, limit = 0.001, normalization = 0.000190693, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000908633, limit = 0.001, normalization = 0.571983, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3676, time: 0.0003675 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3676 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.675000e-04 actual step time=3.676000e-04 actual total time=3.676000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001019 time avg. forc= 0.000030 largest residual force= 0.000281 in node 867 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 8.609768e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001019 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1140 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 3.058050e-08 in node 1330 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.165923, limit = 0.001, normalization = 0.000189718, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.427, limit = 0.001, normalization = 1.20655, conv = false ---[precice]  iteration: 2 of 100, time-window: 3676, time: 0.0003675 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3676 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.675000e-04 actual step time=3.676000e-04 actual total time=3.676000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000981 time avg. forc= 0.000030 largest residual force= 0.000225 in node 1064 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 2.296409e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000981 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1140 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 3.213694e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0436704, limit = 0.001, normalization = 0.000190593, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.201252, limit = 0.001, normalization = 1.22547, conv = false ---[precice]  iteration: 3 of 100, time-window: 3676, time: 0.0003675 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3676 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.675000e-04 actual step time=3.676000e-04 actual total time=3.676000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000981 time avg. forc= 0.000030 largest residual force= 0.000227 in node 1064 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 2.259200e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000981 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1140 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 3.187643e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00432388, limit = 0.001, normalization = 0.000190512, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0340122, limit = 0.001, normalization = 1.10904, conv = false ---[precice]  iteration: 4 of 100, time-window: 3676, time: 0.0003675 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3676 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.675000e-04 actual step time=3.676000e-04 actual total time=3.676000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000981 time avg. forc= 0.000030 largest residual force= 0.000226 in node 1064 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 2.261307e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000981 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1140 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 3.181719e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00251701, limit = 0.001, normalization = 0.000190494, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.011192, limit = 0.001, normalization = 1.10719, conv = false ---[precice]  iteration: 5 of 100, time-window: 3676, time: 0.0003675 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3676 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.675000e-04 actual step time=3.676000e-04 actual total time=3.676000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000981 time avg. forc= 0.000030 largest residual force= 0.000226 in node 1064 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 2.253272e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000981 time avg. forc= 0.000030 largest residual force= 0.000066 in node 869 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 4.366328e-08 in node 869 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000981 time avg. forc= 0.000030 largest residual force= 0.000000 in node 869 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 4.350945e-08 in node 974 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00104047, limit = 0.001, normalization = 0.000190501, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0121268, limit = 0.001, normalization = 1.10659, conv = false ---[precice]  iteration: 6 of 100, time-window: 3676, time: 0.0003675 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3676 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.675000e-04 actual step time=3.676000e-04 actual total time=3.676000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000981 time avg. forc= 0.000030 largest residual force= 0.000226 in node 1064 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 2.254681e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000981 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1140 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 3.184734e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000541907, limit = 0.001, normalization = 0.0001905, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00678504, limit = 0.001, normalization = 1.1068, conv = false ---[precice]  iteration: 7 of 100, time-window: 3676, time: 0.0003675 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3676 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.675000e-04 actual step time=3.676000e-04 actual total time=3.676000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000981 time avg. forc= 0.000030 largest residual force= 0.000226 in node 1064 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 2.254051e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000981 time avg. forc= 0.000030 largest residual force= 0.000010 in node 437 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 3.190854e-08 in node 1383 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000981 time avg. forc= 0.000030 largest residual force= 0.000000 in node 437 and dof 2 largest increment of disp= 1.050998e-05 largest correction to disp= 3.844363e-09 in node 437 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000231064, limit = 0.001, normalization = 0.0001905, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000539982, limit = 0.001, normalization = 1.10699, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3677, time: 0.0003676 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3677 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.676000e-04 actual step time=3.677000e-04 actual total time=3.677000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000923 time avg. forc= 0.000030 largest residual force= 0.000274 in node 1384 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 6.520611e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000923 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 2.798939e-08 in node 1315 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.131375, limit = 0.001, normalization = 0.000192386, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.28844, limit = 0.001, normalization = 0.545757, conv = false ---[precice]  iteration: 2 of 100, time-window: 3677, time: 0.0003676 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3677 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.676000e-04 actual step time=3.677000e-04 actual total time=3.677000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000928 time avg. forc= 0.000030 largest residual force= 0.000209 in node 1279 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 4.861738e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000928 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 3.115861e-08 in node 1288 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0454401, limit = 0.001, normalization = 0.000194152, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.448428, limit = 0.001, normalization = 1.18424, conv = false ---[precice]  iteration: 3 of 100, time-window: 3677, time: 0.0003676 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3677 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.676000e-04 actual step time=3.677000e-04 actual total time=3.677000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000928 time avg. forc= 0.000030 largest residual force= 0.000214 in node 1386 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 4.926635e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000927 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 2.805766e-08 in node 1288 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00506532, limit = 0.001, normalization = 0.000193941, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0178704, limit = 0.001, normalization = 1.18166, conv = false ---[precice]  iteration: 4 of 100, time-window: 3677, time: 0.0003676 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3677 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.676000e-04 actual step time=3.677000e-04 actual total time=3.677000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000928 time avg. forc= 0.000030 largest residual force= 0.000215 in node 1384 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 4.888487e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000928 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 2.734515e-08 in node 1288 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00178541, limit = 0.001, normalization = 0.000193928, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00223505, limit = 0.001, normalization = 1.18037, conv = false ---[precice]  iteration: 5 of 100, time-window: 3677, time: 0.0003676 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3677 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.676000e-04 actual step time=3.677000e-04 actual total time=3.677000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000928 time avg. forc= 0.000030 largest residual force= 0.000215 in node 1384 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 4.882753e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000928 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 2.736688e-08 in node 1288 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000531575, limit = 0.001, normalization = 0.000193929, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00775103, limit = 0.001, normalization = 1.18031, conv = false ---[precice]  iteration: 6 of 100, time-window: 3677, time: 0.0003676 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3677 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.676000e-04 actual step time=3.677000e-04 actual total time=3.677000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000928 time avg. forc= 0.000030 largest residual force= 0.000215 in node 1384 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 4.878476e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000928 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 2.736774e-08 in node 1288 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000174282, limit = 0.001, normalization = 0.000193928, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00507125, limit = 0.001, normalization = 1.18033, conv = false ---[precice]  iteration: 7 of 100, time-window: 3677, time: 0.0003676 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3677 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.676000e-04 actual step time=3.677000e-04 actual total time=3.677000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000928 time avg. forc= 0.000030 largest residual force= 0.000215 in node 1384 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 4.878623e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000928 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 2.737065e-08 in node 1288 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.08999e-05, limit = 0.001, normalization = 0.000193929, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00104384, limit = 0.001, normalization = 1.18033, conv = false ---[precice]  iteration: 8 of 100, time-window: 3677, time: 0.0003676 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3677 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.676000e-04 actual step time=3.677000e-04 actual total time=3.677000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000928 time avg. forc= 0.000030 largest residual force= 0.000215 in node 1384 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 4.878495e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000928 time avg. forc= 0.000030 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 9.507470e-06 largest correction to disp= 2.737071e-08 in node 1288 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.67548e-05, limit = 0.001, normalization = 0.000193929, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 2.29192e-05, limit = 0.001, normalization = 1.18034, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3678, time: 0.0003677 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3678 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.677000e-04 actual step time=3.678000e-04 actual total time=3.678000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001342 time avg. forc= 0.000031 largest residual force= 0.000429 in node 1128 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 6.303701e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001342 time avg. forc= 0.000031 largest residual force= 0.000002 in node 1255 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 5.379871e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001342 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 1.103138e-10 in node 1427 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.143753, limit = 0.001, normalization = 0.000192443, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.92962, limit = 0.001, normalization = 1.2062, conv = false ---[precice]  iteration: 2 of 100, time-window: 3678, time: 0.0003677 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3678 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.677000e-04 actual step time=3.678000e-04 actual total time=3.678000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001301 time avg. forc= 0.000031 largest residual force= 0.000436 in node 1128 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 2.462161e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001300 time avg. forc= 0.000031 largest residual force= 0.000002 in node 1075 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 6.011340e-08 in node 973 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001300 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 8.140403e-06 largest correction to disp= 1.210857e-10 in node 1022 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0453019, limit = 0.001, normalization = 0.000189674, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.93926, limit = 0.001, normalization = 0.556563, conv = false ---[precice]  iteration: 3 of 100, time-window: 3678, time: 0.0003677 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3678 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.677000e-04 actual step time=3.678000e-04 actual total time=3.678000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000439 in node 1128 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 2.262422e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000002 in node 1075 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 5.903093e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 8.140403e-06 largest correction to disp= 1.224172e-10 in node 1022 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0115137, limit = 0.001, normalization = 0.000189931, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.294628, limit = 0.001, normalization = 0.537205, conv = false ---[precice]  iteration: 4 of 100, time-window: 3678, time: 0.0003677 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3678 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.677000e-04 actual step time=3.678000e-04 actual total time=3.678000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000439 in node 1128 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 2.256933e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001295 time avg. forc= 0.000031 largest residual force= 0.000002 in node 1075 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 5.932950e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001295 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 8.140403e-06 largest correction to disp= 1.228536e-10 in node 1022 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00459727, limit = 0.001, normalization = 0.000189917, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.167845, limit = 0.001, normalization = 0.532613, conv = false ---[precice]  iteration: 5 of 100, time-window: 3678, time: 0.0003677 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3678 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.677000e-04 actual step time=3.678000e-04 actual total time=3.678000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000438 in node 1128 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 2.251015e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000002 in node 1075 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 5.926621e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 8.140403e-06 largest correction to disp= 1.226380e-10 in node 1022 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000748881, limit = 0.001, normalization = 0.000189899, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00902808, limit = 0.001, normalization = 0.529049, conv = false ---[precice]  iteration: 6 of 100, time-window: 3678, time: 0.0003677 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3678 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.677000e-04 actual step time=3.678000e-04 actual total time=3.678000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000438 in node 1128 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 2.254655e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000002 in node 1075 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 5.926133e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 8.140403e-06 largest correction to disp= 1.226507e-10 in node 1022 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000257737, limit = 0.001, normalization = 0.000189895, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00619575, limit = 0.001, normalization = 0.532832, conv = false ---[precice]  iteration: 7 of 100, time-window: 3678, time: 0.0003677 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3678 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.677000e-04 actual step time=3.678000e-04 actual total time=3.678000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000438 in node 1128 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 2.253092e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000002 in node 1075 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 5.926862e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 8.140403e-06 largest correction to disp= 1.226385e-10 in node 1022 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000112813, limit = 0.001, normalization = 0.000189895, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00239545, limit = 0.001, normalization = 0.532294, conv = false ---[precice]  iteration: 8 of 100, time-window: 3678, time: 0.0003677 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3678 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.677000e-04 actual step time=3.678000e-04 actual total time=3.678000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000438 in node 1128 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 2.253175e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000002 in node 1075 and dof 2 largest increment of disp= 8.140403e-06 largest correction to disp= 5.926878e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001296 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 8.140403e-06 largest correction to disp= 1.226397e-10 in node 1022 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.91667e-05, limit = 0.001, normalization = 0.000189895, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000371339, limit = 0.001, normalization = 0.531858, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3679, time: 0.0003678 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3679 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.678000e-04 actual step time=3.679000e-04 actual total time=3.679000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000704 time avg. forc= 0.000031 largest residual force= 0.000372 in node 1079 and dof 2 largest increment of disp= 1.315018e-05 largest correction to disp= 9.219474e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000704 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.315018e-05 largest correction to disp= 4.011975e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.169211, limit = 0.001, normalization = 0.000190481, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.0193, limit = 0.001, normalization = 0.94732, conv = false ---[precice]  iteration: 2 of 100, time-window: 3679, time: 0.0003678 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3679 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.678000e-04 actual step time=3.679000e-04 actual total time=3.679000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000715 time avg. forc= 0.000031 largest residual force= 0.000199 in node 867 and dof 2 largest increment of disp= 1.315018e-05 largest correction to disp= 4.036371e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000715 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.315018e-05 largest correction to disp= 2.618634e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0294137, limit = 0.001, normalization = 0.000194038, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.3239, limit = 0.001, normalization = 1.6291, conv = false ---[precice]  iteration: 3 of 100, time-window: 3679, time: 0.0003678 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3679 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.678000e-04 actual step time=3.679000e-04 actual total time=3.679000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000716 time avg. forc= 0.000031 largest residual force= 0.004667 in node 958 and dof 2 largest increment of disp= 1.315018e-05 largest correction to disp= 4.307074e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000715 time avg. forc= 0.000031 largest residual force= 0.000128 in node 958 and dof 2 largest increment of disp= 1.315018e-05 largest correction to disp= 4.383564e-06 in node 958 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000715 time avg. forc= 0.000031 largest residual force= 0.000000 in node 958 and dof 2 largest increment of disp= 1.315018e-05 largest correction to disp= 3.661785e-09 in node 958 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0101155, limit = 0.001, normalization = 0.000193949, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0347624, limit = 0.001, normalization = 1.4517, conv = false ---[precice]  iteration: 4 of 100, time-window: 3679, time: 0.0003678 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3679 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.678000e-04 actual step time=3.679000e-04 actual total time=3.679000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000715 time avg. forc= 0.000031 largest residual force= 0.000198 in node 867 and dof 2 largest increment of disp= 1.315018e-05 largest correction to disp= 4.203964e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000715 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.315018e-05 largest correction to disp= 2.617456e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00355657, limit = 0.001, normalization = 0.000193977, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0105937, limit = 0.001, normalization = 1.46239, conv = false ---[precice]  iteration: 5 of 100, time-window: 3679, time: 0.0003678 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3679 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.678000e-04 actual step time=3.679000e-04 actual total time=3.679000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000715 time avg. forc= 0.000031 largest residual force= 0.000199 in node 867 and dof 2 largest increment of disp= 1.315018e-05 largest correction to disp= 4.220825e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000715 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.315018e-05 largest correction to disp= 2.622799e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000518274, limit = 0.001, normalization = 0.000193967, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00567378, limit = 0.001, normalization = 1.46283, conv = false ---[precice]  iteration: 6 of 100, time-window: 3679, time: 0.0003678 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3679 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.678000e-04 actual step time=3.679000e-04 actual total time=3.679000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000715 time avg. forc= 0.000031 largest residual force= 0.000199 in node 867 and dof 2 largest increment of disp= 1.315018e-05 largest correction to disp= 4.216573e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000715 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.315018e-05 largest correction to disp= 2.626522e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000292127, limit = 0.001, normalization = 0.000193966, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000532732, limit = 0.001, normalization = 1.46324, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3680, time: 0.0003679 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3680 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.679000e-04 actual step time=3.680000e-04 actual total time=3.680000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001315 time avg. forc= 0.000031 largest residual force= 0.000510 in node 1333 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 2.761006e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001315 time avg. forc= 0.000031 largest residual force= 0.000010 in node 1279 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 1.138767e-07 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001315 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 8.663162e-10 in node 549 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.120357, limit = 0.001, normalization = 0.000193606, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.65953, limit = 0.001, normalization = 0.813583, conv = false ---[precice]  iteration: 2 of 100, time-window: 3680, time: 0.0003679 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3680 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.679000e-04 actual step time=3.680000e-04 actual total time=3.680000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001288 time avg. forc= 0.000031 largest residual force= 0.000520 in node 1333 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 3.889421e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001288 time avg. forc= 0.000031 largest residual force= 0.000011 in node 1279 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 1.110188e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001288 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 4.730260e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.013958, limit = 0.001, normalization = 0.000191509, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.132193, limit = 0.001, normalization = 0.625513, conv = false ---[precice]  iteration: 3 of 100, time-window: 3680, time: 0.0003679 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3680 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.679000e-04 actual step time=3.680000e-04 actual total time=3.680000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001288 time avg. forc= 0.000031 largest residual force= 0.000521 in node 1333 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 3.666742e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001288 time avg. forc= 0.000031 largest residual force= 0.000011 in node 1279 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 4.932850e-07 in node 1980 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001288 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1015 and dof 1 largest increment of disp= 5.017852e-06 largest correction to disp= 4.335254e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00380528, limit = 0.001, normalization = 0.000191555, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.260215, limit = 0.001, normalization = 0.639058, conv = false ---[precice]  iteration: 4 of 100, time-window: 3680, time: 0.0003679 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3680 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.679000e-04 actual step time=3.680000e-04 actual total time=3.680000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001288 time avg. forc= 0.000031 largest residual force= 0.000520 in node 1333 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 3.667845e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001288 time avg. forc= 0.000031 largest residual force= 0.000011 in node 1279 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 1.073153e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001288 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 4.355590e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00225689, limit = 0.001, normalization = 0.00019152, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.130837, limit = 0.001, normalization = 0.650883, conv = false ---[precice]  iteration: 5 of 100, time-window: 3680, time: 0.0003679 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3680 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.679000e-04 actual step time=3.680000e-04 actual total time=3.680000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001287 time avg. forc= 0.000031 largest residual force= 0.000520 in node 1333 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 3.663275e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001287 time avg. forc= 0.000031 largest residual force= 0.000097 in node 1211 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 1.070229e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001287 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1232 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 2.964150e-09 in node 1211 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000601299, limit = 0.001, normalization = 0.000191502, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0150841, limit = 0.001, normalization = 0.644349, conv = false ---[precice]  iteration: 6 of 100, time-window: 3680, time: 0.0003679 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3680 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.679000e-04 actual step time=3.680000e-04 actual total time=3.680000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001287 time avg. forc= 0.000031 largest residual force= 0.000520 in node 1333 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 3.666023e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001287 time avg. forc= 0.000031 largest residual force= 0.000011 in node 1279 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 1.070103e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001287 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 4.340732e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000248379, limit = 0.001, normalization = 0.000191501, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00969667, limit = 0.001, normalization = 0.643494, conv = false ---[precice]  iteration: 7 of 100, time-window: 3680, time: 0.0003679 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3680 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.679000e-04 actual step time=3.680000e-04 actual total time=3.680000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001287 time avg. forc= 0.000031 largest residual force= 0.000520 in node 1333 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 3.664925e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001287 time avg. forc= 0.000031 largest residual force= 0.000011 in node 1279 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 1.070005e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001287 time avg. forc= 0.000031 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.017852e-06 largest correction to disp= 4.341313e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 8.13664e-05, limit = 0.001, normalization = 0.000191503, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000367426, limit = 0.001, normalization = 0.643424, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3681, time: 0.000368 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3681 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.680000e-04 actual step time=3.681000e-04 actual total time=3.681000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001121 time avg. forc= 0.000032 largest residual force= 0.000334 in node 867 and dof 2 largest increment of disp= 1.130148e-05 largest correction to disp= 9.306642e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001121 time avg. forc= 0.000032 largest residual force= 0.000001 in node 1140 and dof 2 largest increment of disp= 1.130148e-05 largest correction to disp= 4.003869e-08 in node 1330 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001121 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.130148e-05 largest correction to disp= 6.490196e-11 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.179739, limit = 0.001, normalization = 0.00019028, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.45391, limit = 0.001, normalization = 1.29601, conv = false ---[precice]  iteration: 2 of 100, time-window: 3681, time: 0.000368 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3681 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.680000e-04 actual step time=3.681000e-04 actual total time=3.681000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001080 time avg. forc= 0.000032 largest residual force= 0.000284 in node 1064 and dof 2 largest increment of disp= 1.130148e-05 largest correction to disp= 2.350717e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001080 time avg. forc= 0.000032 largest residual force= 0.000001 in node 1140 and dof 2 largest increment of disp= 1.130148e-05 largest correction to disp= 3.706202e-08 in node 1330 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001080 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.130148e-05 largest correction to disp= 5.742990e-11 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0235517, limit = 0.001, normalization = 0.000190972, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.478622, limit = 0.001, normalization = 1.191, conv = false ---[precice]  iteration: 3 of 100, time-window: 3681, time: 0.000368 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3681 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.680000e-04 actual step time=3.681000e-04 actual total time=3.681000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001079 time avg. forc= 0.000032 largest residual force= 0.000283 in node 1064 and dof 2 largest increment of disp= 1.130148e-05 largest correction to disp= 2.416640e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001079 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1140 and dof 2 largest increment of disp= 1.130148e-05 largest correction to disp= 3.906082e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00653556, limit = 0.001, normalization = 0.000191064, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.030358, limit = 0.001, normalization = 1.18801, conv = false ---[precice]  iteration: 4 of 100, time-window: 3681, time: 0.000368 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3681 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.680000e-04 actual step time=3.681000e-04 actual total time=3.681000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001079 time avg. forc= 0.000032 largest residual force= 0.000283 in node 1064 and dof 2 largest increment of disp= 1.130148e-05 largest correction to disp= 2.383699e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001079 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1140 and dof 2 largest increment of disp= 1.130148e-05 largest correction to disp= 3.932918e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00287399, limit = 0.001, normalization = 0.000191085, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0143341, limit = 0.001, normalization = 1.19093, conv = false ---[precice]  iteration: 5 of 100, time-window: 3681, time: 0.000368 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3681 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.680000e-04 actual step time=3.681000e-04 actual total time=3.681000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001079 time avg. forc= 0.000032 largest residual force= 0.000284 in node 1064 and dof 2 largest increment of disp= 1.130148e-05 largest correction to disp= 2.384746e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001079 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1140 and dof 2 largest increment of disp= 1.130148e-05 largest correction to disp= 3.912257e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00121081, limit = 0.001, normalization = 0.000191078, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00804007, limit = 0.001, normalization = 1.18983, conv = false ---[precice]  iteration: 6 of 100, time-window: 3681, time: 0.000368 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3681 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.680000e-04 actual step time=3.681000e-04 actual total time=3.681000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001079 time avg. forc= 0.000032 largest residual force= 0.000283 in node 1064 and dof 2 largest increment of disp= 1.130148e-05 largest correction to disp= 2.380523e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001079 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1140 and dof 2 largest increment of disp= 1.130148e-05 largest correction to disp= 3.914523e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000362109, limit = 0.001, normalization = 0.000191079, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00418245, limit = 0.001, normalization = 1.1897, conv = false ---[precice]  iteration: 7 of 100, time-window: 3681, time: 0.000368 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3681 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.680000e-04 actual step time=3.681000e-04 actual total time=3.681000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001079 time avg. forc= 0.000032 largest residual force= 0.000283 in node 1064 and dof 2 largest increment of disp= 1.130148e-05 largest correction to disp= 2.378662e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001079 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1140 and dof 2 largest increment of disp= 1.130148e-05 largest correction to disp= 3.915208e-08 in node 1383 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000117985, limit = 0.001, normalization = 0.00019108, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000126164, limit = 0.001, normalization = 1.18945, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3682, time: 0.0003681 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3682 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.681000e-04 actual step time=3.682000e-04 actual total time=3.682000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000992 time avg. forc= 0.000032 largest residual force= 0.000333 in node 1384 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 7.232794e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000992 time avg. forc= 0.000032 largest residual force= 0.000001 in node 1186 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 3.522401e-08 in node 1319 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000992 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 5.393326e-11 in node 1077 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.143558, limit = 0.001, normalization = 0.000193279, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.42307, limit = 0.001, normalization = 0.538456, conv = false ---[precice]  iteration: 2 of 100, time-window: 3682, time: 0.0003681 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3682 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.681000e-04 actual step time=3.682000e-04 actual total time=3.682000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000998 time avg. forc= 0.000032 largest residual force= 0.000255 in node 1386 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 5.390189e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000998 time avg. forc= 0.000032 largest residual force= 0.000001 in node 1186 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 4.010066e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000998 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 5.162296e-11 in node 1077 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0284712, limit = 0.001, normalization = 0.000195347, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.282488, limit = 0.001, normalization = 1.45008, conv = false ---[precice]  iteration: 3 of 100, time-window: 3682, time: 0.0003681 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3682 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.681000e-04 actual step time=3.682000e-04 actual total time=3.682000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000998 time avg. forc= 0.000032 largest residual force= 0.000261 in node 1386 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 5.455133e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000998 time avg. forc= 0.000032 largest residual force= 0.000001 in node 1186 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 3.547910e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000998 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 4.370655e-11 in node 1077 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00609263, limit = 0.001, normalization = 0.000195124, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0992583, limit = 0.001, normalization = 1.29835, conv = false ---[precice]  iteration: 4 of 100, time-window: 3682, time: 0.0003681 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3682 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.681000e-04 actual step time=3.682000e-04 actual total time=3.682000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000998 time avg. forc= 0.000032 largest residual force= 0.000256 in node 1384 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 5.329572e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000997 time avg. forc= 0.000032 largest residual force= 0.000001 in node 1186 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 3.480969e-08 in node 1288 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000997 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 4.359460e-11 in node 1077 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00231192, limit = 0.001, normalization = 0.000195207, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0186636, limit = 0.001, normalization = 1.29863, conv = false ---[precice]  iteration: 5 of 100, time-window: 3682, time: 0.0003681 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3682 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.681000e-04 actual step time=3.682000e-04 actual total time=3.682000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000998 time avg. forc= 0.000032 largest residual force= 0.000256 in node 1384 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 5.314420e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000997 time avg. forc= 0.000032 largest residual force= 0.000001 in node 1186 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 3.482513e-08 in node 1288 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000997 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 4.373358e-11 in node 1077 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000950077, limit = 0.001, normalization = 0.000195216, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0130543, limit = 0.001, normalization = 1.29844, conv = false ---[precice]  iteration: 6 of 100, time-window: 3682, time: 0.0003681 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3682 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.681000e-04 actual step time=3.682000e-04 actual total time=3.682000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000998 time avg. forc= 0.000032 largest residual force= 0.000256 in node 1384 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 5.317927e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000997 time avg. forc= 0.000032 largest residual force= 0.000001 in node 1186 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 3.482132e-08 in node 1288 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000997 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.052584e-05 largest correction to disp= 4.366500e-11 in node 1077 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000288854, limit = 0.001, normalization = 0.00019521, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000289088, limit = 0.001, normalization = 1.29845, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3683, time: 0.0003682 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3683 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.682000e-04 actual step time=3.683000e-04 actual total time=3.683000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001464 time avg. forc= 0.000032 largest residual force= 0.000514 in node 1128 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 6.738823e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001463 time avg. forc= 0.000032 largest residual force= 0.000005 in node 1255 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 7.410683e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001463 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 2.062927e-10 in node 1427 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.154827, limit = 0.001, normalization = 0.000193469, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.96034, limit = 0.001, normalization = 1.29225, conv = false ---[precice]  iteration: 2 of 100, time-window: 3683, time: 0.0003682 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3683 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.682000e-04 actual step time=3.683000e-04 actual total time=3.683000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000524 in node 1128 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 2.488268e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000004 in node 1075 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 8.201967e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 8.762841e-06 largest correction to disp= 2.337206e-10 in node 1022 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0218302, limit = 0.001, normalization = 0.000190377, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.566132, limit = 0.001, normalization = 0.899827, conv = false ---[precice]  iteration: 3 of 100, time-window: 3683, time: 0.0003682 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3683 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.682000e-04 actual step time=3.683000e-04 actual total time=3.683000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000525 in node 1128 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 2.551796e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000005 in node 1075 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 8.223913e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 8.762841e-06 largest correction to disp= 2.398175e-10 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00630249, limit = 0.001, normalization = 0.000190449, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.272266, limit = 0.001, normalization = 0.551631, conv = false ---[precice]  iteration: 4 of 100, time-window: 3683, time: 0.0003682 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3683 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.682000e-04 actual step time=3.683000e-04 actual total time=3.683000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000525 in node 1128 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 2.537386e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000005 in node 1075 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 8.191798e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 8.762841e-06 largest correction to disp= 2.412503e-10 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00197017, limit = 0.001, normalization = 0.000190406, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00653692, limit = 0.001, normalization = 0.555491, conv = false ---[precice]  iteration: 5 of 100, time-window: 3683, time: 0.0003682 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3683 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.682000e-04 actual step time=3.683000e-04 actual total time=3.683000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000524 in node 1128 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 2.519524e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000005 in node 1075 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 8.176504e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 8.762841e-06 largest correction to disp= 2.412602e-10 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000597338, limit = 0.001, normalization = 0.000190399, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00567725, limit = 0.001, normalization = 0.561239, conv = false ---[precice]  iteration: 6 of 100, time-window: 3683, time: 0.0003682 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3683 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.682000e-04 actual step time=3.683000e-04 actual total time=3.683000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000524 in node 1128 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 2.520547e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000005 in node 1075 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 8.175021e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 8.762841e-06 largest correction to disp= 2.410757e-10 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000251811, limit = 0.001, normalization = 0.000190396, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00902278, limit = 0.001, normalization = 0.564023, conv = false ---[precice]  iteration: 7 of 100, time-window: 3683, time: 0.0003682 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3683 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.682000e-04 actual step time=3.683000e-04 actual total time=3.683000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000524 in node 1128 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 2.521878e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000005 in node 1075 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 8.175662e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 8.762841e-06 largest correction to disp= 2.411384e-10 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000140648, limit = 0.001, normalization = 0.000190398, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00101037, limit = 0.001, normalization = 0.562795, conv = false ---[precice]  iteration: 8 of 100, time-window: 3683, time: 0.0003682 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3683 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.682000e-04 actual step time=3.683000e-04 actual total time=3.683000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000524 in node 1128 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 2.521677e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000005 in node 1075 and dof 2 largest increment of disp= 8.762841e-06 largest correction to disp= 8.175612e-08 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001413 time avg. forc= 0.000032 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 8.762841e-06 largest correction to disp= 2.411370e-10 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.98914e-05, limit = 0.001, normalization = 0.000190398, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00066014, limit = 0.001, normalization = 0.563047, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3684, time: 0.0003683 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3684 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.683000e-04 actual step time=3.684000e-04 actual total time=3.684000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000766 time avg. forc= 0.000033 largest residual force= 0.000447 in node 1079 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 1.008250e-05 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000766 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 5.035517e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.184436, limit = 0.001, normalization = 0.000191054, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.02575, limit = 0.001, normalization = 1.0268, conv = false ---[precice]  iteration: 2 of 100, time-window: 3684, time: 0.0003683 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3684 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.683000e-04 actual step time=3.684000e-04 actual total time=3.684000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000777 time avg. forc= 0.000033 largest residual force= 0.000241 in node 867 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 4.619447e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000777 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 3.607020e-08 in node 1427 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0177115, limit = 0.001, normalization = 0.000195014, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.323097, limit = 0.001, normalization = 1.71806, conv = false ---[precice]  iteration: 3 of 100, time-window: 3684, time: 0.0003683 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3684 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.683000e-04 actual step time=3.684000e-04 actual total time=3.684000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000778 time avg. forc= 0.000033 largest residual force= 0.000240 in node 867 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 4.669475e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000778 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 3.354080e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00436399, limit = 0.001, normalization = 0.000195106, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0428708, limit = 0.001, normalization = 1.58026, conv = false ---[precice]  iteration: 4 of 100, time-window: 3684, time: 0.0003683 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3684 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.683000e-04 actual step time=3.684000e-04 actual total time=3.684000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000778 time avg. forc= 0.000033 largest residual force= 0.000241 in node 867 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 4.556460e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000778 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 3.295664e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0030818, limit = 0.001, normalization = 0.000195159, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.025111, limit = 0.001, normalization = 1.59003, conv = false ---[precice]  iteration: 5 of 100, time-window: 3684, time: 0.0003683 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3684 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.683000e-04 actual step time=3.684000e-04 actual total time=3.684000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000778 time avg. forc= 0.000033 largest residual force= 0.000240 in node 867 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 4.549984e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000778 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 3.315157e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00145143, limit = 0.001, normalization = 0.000195156, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0134075, limit = 0.001, normalization = 1.58902, conv = false ---[precice]  iteration: 6 of 100, time-window: 3684, time: 0.0003683 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3684 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.683000e-04 actual step time=3.684000e-04 actual total time=3.684000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000778 time avg. forc= 0.000033 largest residual force= 0.000241 in node 867 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 4.541601e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000778 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 3.317811e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00034124, limit = 0.001, normalization = 0.000195158, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00151878, limit = 0.001, normalization = 1.59176, conv = false ---[precice]  iteration: 7 of 100, time-window: 3684, time: 0.0003683 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3684 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.683000e-04 actual step time=3.684000e-04 actual total time=3.684000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000778 time avg. forc= 0.000033 largest residual force= 0.000240 in node 867 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 4.538706e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000778 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 3.318282e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000134418, limit = 0.001, normalization = 0.00019516, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00170211, limit = 0.001, normalization = 1.59182, conv = false ---[precice]  iteration: 8 of 100, time-window: 3684, time: 0.0003683 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3684 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.683000e-04 actual step time=3.684000e-04 actual total time=3.684000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000778 time avg. forc= 0.000033 largest residual force= 0.000241 in node 867 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 4.537665e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000778 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.436241e-05 largest correction to disp= 3.315948e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.44674e-05, limit = 0.001, normalization = 0.000195162, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000271464, limit = 0.001, normalization = 1.59206, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3685, time: 0.0003684 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3685 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.684000e-04 actual step time=3.685000e-04 actual total time=3.685000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001422 time avg. forc= 0.000033 largest residual force= 0.000613 in node 1333 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 3.042134e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001422 time avg. forc= 0.000033 largest residual force= 0.000020 in node 1279 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 1.522670e-07 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001422 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 8.483137e-10 in node 1278 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.13032, limit = 0.001, normalization = 0.00019483, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.70627, limit = 0.001, normalization = 0.862256, conv = false ---[precice]  iteration: 2 of 100, time-window: 3685, time: 0.0003684 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3685 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.684000e-04 actual step time=3.685000e-04 actual total time=3.685000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001394 time avg. forc= 0.000033 largest residual force= 0.000626 in node 1333 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 4.549749e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001394 time avg. forc= 0.000033 largest residual force= 0.000022 in node 1279 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 1.556051e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001394 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 9.757216e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0171877, limit = 0.001, normalization = 0.000192419, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.618319, limit = 0.001, normalization = 0.777879, conv = false ---[precice]  iteration: 3 of 100, time-window: 3685, time: 0.0003684 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3685 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.684000e-04 actual step time=3.685000e-04 actual total time=3.685000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001393 time avg. forc= 0.000033 largest residual force= 0.000626 in node 1333 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 4.118514e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001393 time avg. forc= 0.000033 largest residual force= 0.000023 in node 1279 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 1.497214e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001393 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 8.992472e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00624497, limit = 0.001, normalization = 0.000192461, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0906133, limit = 0.001, normalization = 0.705141, conv = false ---[precice]  iteration: 4 of 100, time-window: 3685, time: 0.0003684 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3685 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.684000e-04 actual step time=3.685000e-04 actual total time=3.685000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001393 time avg. forc= 0.000033 largest residual force= 0.000626 in node 1333 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 4.066722e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001393 time avg. forc= 0.000033 largest residual force= 0.000023 in node 1279 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 1.490517e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001393 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 8.931321e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00222215, limit = 0.001, normalization = 0.000192459, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00874629, limit = 0.001, normalization = 0.716132, conv = false ---[precice]  iteration: 5 of 100, time-window: 3685, time: 0.0003684 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3685 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.684000e-04 actual step time=3.685000e-04 actual total time=3.685000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001393 time avg. forc= 0.000033 largest residual force= 0.000626 in node 1333 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 4.070744e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001393 time avg. forc= 0.000033 largest residual force= 0.000023 in node 1279 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 1.487451e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001393 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 8.904628e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00109185, limit = 0.001, normalization = 0.000192443, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0111749, limit = 0.001, normalization = 0.721118, conv = false ---[precice]  iteration: 6 of 100, time-window: 3685, time: 0.0003684 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3685 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.684000e-04 actual step time=3.685000e-04 actual total time=3.685000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001393 time avg. forc= 0.000033 largest residual force= 0.000626 in node 1333 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 4.075166e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001393 time avg. forc= 0.000033 largest residual force= 0.000023 in node 1279 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 1.487079e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001393 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.399752e-06 largest correction to disp= 8.903337e-10 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000210008, limit = 0.001, normalization = 0.000192444, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0005087, limit = 0.001, normalization = 0.720205, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3686, time: 0.0003685 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3686 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.685000e-04 actual step time=3.686000e-04 actual total time=3.686000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001234 time avg. forc= 0.000033 largest residual force= 0.000399 in node 867 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 1.009871e-05 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001234 time avg. forc= 0.000033 largest residual force= 0.000002 in node 1140 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 5.353955e-08 in node 1330 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001234 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.222320e-05 largest correction to disp= 1.253960e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.19469, limit = 0.001, normalization = 0.000190924, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.4763, limit = 0.001, normalization = 1.39513, conv = false ---[precice]  iteration: 2 of 100, time-window: 3686, time: 0.0003685 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3686 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.685000e-04 actual step time=3.686000e-04 actual total time=3.686000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000033 largest residual force= 0.000355 in node 1064 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 2.657573e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000033 largest residual force= 0.000002 in node 1140 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 5.011606e-08 in node 1330 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001188 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.222320e-05 largest correction to disp= 1.085539e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0211167, limit = 0.001, normalization = 0.000191531, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.489721, limit = 0.001, normalization = 1.28462, conv = false ---[precice]  iteration: 3 of 100, time-window: 3686, time: 0.0003685 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3686 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.685000e-04 actual step time=3.686000e-04 actual total time=3.686000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001187 time avg. forc= 0.000033 largest residual force= 0.000355 in node 1064 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 2.613167e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001187 time avg. forc= 0.000033 largest residual force= 0.000002 in node 1140 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 5.034580e-08 in node 1330 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001187 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.222320e-05 largest correction to disp= 1.085875e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00690238, limit = 0.001, normalization = 0.00019167, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0247542, limit = 0.001, normalization = 1.27904, conv = false ---[precice]  iteration: 4 of 100, time-window: 3686, time: 0.0003685 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3686 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.685000e-04 actual step time=3.686000e-04 actual total time=3.686000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001186 time avg. forc= 0.000033 largest residual force= 0.000354 in node 1064 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 2.572341e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001186 time avg. forc= 0.000033 largest residual force= 0.000002 in node 1140 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 5.045255e-08 in node 1330 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001186 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.222320e-05 largest correction to disp= 1.086302e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00274371, limit = 0.001, normalization = 0.000191694, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0143438, limit = 0.001, normalization = 1.27537, conv = false ---[precice]  iteration: 5 of 100, time-window: 3686, time: 0.0003685 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3686 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.685000e-04 actual step time=3.686000e-04 actual total time=3.686000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001186 time avg. forc= 0.000033 largest residual force= 0.000354 in node 1064 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 2.574893e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001186 time avg. forc= 0.000033 largest residual force= 0.000002 in node 1140 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 5.035625e-08 in node 1330 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001186 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.222320e-05 largest correction to disp= 1.082601e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00109269, limit = 0.001, normalization = 0.000191702, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00814884, limit = 0.001, normalization = 1.27587, conv = false ---[precice]  iteration: 6 of 100, time-window: 3686, time: 0.0003685 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3686 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.685000e-04 actual step time=3.686000e-04 actual total time=3.686000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001186 time avg. forc= 0.000033 largest residual force= 0.000770 in node 1250 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 2.573416e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001186 time avg. forc= 0.000033 largest residual force= 0.000004 in node 1250 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 3.503679e-07 in node 1250 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001186 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1980 and dof 3 largest increment of disp= 1.222320e-05 largest correction to disp= 1.657262e-10 in node 1250 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000241503, limit = 0.001, normalization = 0.000191707, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00301022, limit = 0.001, normalization = 1.27632, conv = false ---[precice]  iteration: 7 of 100, time-window: 3686, time: 0.0003685 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3686 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.685000e-04 actual step time=3.686000e-04 actual total time=3.686000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001186 time avg. forc= 0.000033 largest residual force= 0.000354 in node 1064 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 2.574127e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001186 time avg. forc= 0.000033 largest residual force= 0.000002 in node 1140 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 5.034733e-08 in node 1330 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001186 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.222320e-05 largest correction to disp= 1.081028e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000129946, limit = 0.001, normalization = 0.000191706, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00172737, limit = 0.001, normalization = 1.27628, conv = false ---[precice]  iteration: 8 of 100, time-window: 3686, time: 0.0003685 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3686 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.685000e-04 actual step time=3.686000e-04 actual total time=3.686000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001186 time avg. forc= 0.000033 largest residual force= 0.000354 in node 1064 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 2.573927e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001186 time avg. forc= 0.000033 largest residual force= 0.000002 in node 1140 and dof 2 largest increment of disp= 1.222320e-05 largest correction to disp= 5.034153e-08 in node 1330 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001186 time avg. forc= 0.000033 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.222320e-05 largest correction to disp= 1.081107e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.3096e-05, limit = 0.001, normalization = 0.000191706, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000956704, limit = 0.001, normalization = 1.27634, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3687, time: 0.0003686 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3687 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.686000e-04 actual step time=3.687000e-04 actual total time=3.687000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001066 time avg. forc= 0.000034 largest residual force= 0.000403 in node 1384 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 7.966116e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001065 time avg. forc= 0.000034 largest residual force= 0.000111 in node 1126 and dof 1 largest increment of disp= 1.161064e-05 largest correction to disp= 4.526453e-08 in node 1288 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001065 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1147 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 1.078159e-08 in node 1084 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.156976, limit = 0.001, normalization = 0.000194262, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.4101, limit = 0.001, normalization = 0.573601, conv = false ---[precice]  iteration: 2 of 100, time-window: 3687, time: 0.0003686 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3687 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.686000e-04 actual step time=3.687000e-04 actual total time=3.687000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001073 time avg. forc= 0.000034 largest residual force= 0.000312 in node 1384 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 5.969519e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001072 time avg. forc= 0.000034 largest residual force= 0.000002 in node 1186 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 5.081020e-08 in node 1288 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001072 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 8.699834e-11 in node 1077 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0157493, limit = 0.001, normalization = 0.000196645, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0798159, limit = 0.001, normalization = 1.45601, conv = false ---[precice]  iteration: 3 of 100, time-window: 3687, time: 0.0003686 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3687 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.686000e-04 actual step time=3.687000e-04 actual total time=3.687000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001073 time avg. forc= 0.000034 largest residual force= 0.000307 in node 1384 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 5.899773e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001073 time avg. forc= 0.000034 largest residual force= 0.000002 in node 1186 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 4.512324e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001073 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1601 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 7.618758e-11 in node 1077 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00486945, limit = 0.001, normalization = 0.000196602, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0582268, limit = 0.001, normalization = 1.43055, conv = false ---[precice]  iteration: 4 of 100, time-window: 3687, time: 0.0003686 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3687 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.686000e-04 actual step time=3.687000e-04 actual total time=3.687000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001073 time avg. forc= 0.000034 largest residual force= 0.000301 in node 1384 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 5.741183e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001072 time avg. forc= 0.000034 largest residual force= 0.000002 in node 1186 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 4.504019e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001072 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 7.564604e-11 in node 1077 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00480498, limit = 0.001, normalization = 0.000196689, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00494291, limit = 0.001, normalization = 1.42923, conv = false ---[precice]  iteration: 5 of 100, time-window: 3687, time: 0.0003686 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3687 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.686000e-04 actual step time=3.687000e-04 actual total time=3.687000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001073 time avg. forc= 0.000034 largest residual force= 0.000301 in node 1384 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 5.737751e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001072 time avg. forc= 0.000034 largest residual force= 0.000002 in node 1186 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 4.500818e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001072 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 7.567872e-11 in node 1077 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0011601, limit = 0.001, normalization = 0.000196688, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0124338, limit = 0.001, normalization = 1.42954, conv = false ---[precice]  iteration: 6 of 100, time-window: 3687, time: 0.0003686 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3687 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.686000e-04 actual step time=3.687000e-04 actual total time=3.687000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001073 time avg. forc= 0.000034 largest residual force= 0.000301 in node 1384 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 5.736109e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001072 time avg. forc= 0.000034 largest residual force= 0.000002 in node 1186 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 4.502211e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001072 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 7.553616e-11 in node 1077 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00105386, limit = 0.001, normalization = 0.000196689, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00401318, limit = 0.001, normalization = 1.42931, conv = false ---[precice]  iteration: 7 of 100, time-window: 3687, time: 0.0003686 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3687 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.686000e-04 actual step time=3.687000e-04 actual total time=3.687000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001073 time avg. forc= 0.000034 largest residual force= 0.000301 in node 1384 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 5.738216e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001072 time avg. forc= 0.000034 largest residual force= 0.000002 in node 1186 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 4.501563e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001072 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 7.556745e-11 in node 1077 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000122786, limit = 0.001, normalization = 0.000196688, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00282916, limit = 0.001, normalization = 1.42936, conv = false ---[precice]  iteration: 8 of 100, time-window: 3687, time: 0.0003686 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3687 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.686000e-04 actual step time=3.687000e-04 actual total time=3.687000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001073 time avg. forc= 0.000034 largest residual force= 0.000301 in node 1384 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 5.738939e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001072 time avg. forc= 0.000034 largest residual force= 0.000058 in node 885 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 4.501644e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001072 time avg. forc= 0.000034 largest residual force= 0.000000 in node 847 and dof 2 largest increment of disp= 1.161064e-05 largest correction to disp= 5.547574e-09 in node 847 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000140611, limit = 0.001, normalization = 0.000196688, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000791081, limit = 0.001, normalization = 1.42931, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3688, time: 0.0003687 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3688 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.687000e-04 actual step time=3.688000e-04 actual total time=3.688000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001596 time avg. forc= 0.000034 largest residual force= 0.000620 in node 1128 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 7.124537e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001595 time avg. forc= 0.000034 largest residual force= 0.000011 in node 1255 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 1.051831e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001595 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 4.287812e-10 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.16668, limit = 0.001, normalization = 0.000194669, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.99737, limit = 0.001, normalization = 1.37542, conv = false ---[precice]  iteration: 2 of 100, time-window: 3688, time: 0.0003687 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3688 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.687000e-04 actual step time=3.688000e-04 actual total time=3.688000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000633 in node 1128 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 2.754969e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001540 time avg. forc= 0.000034 largest residual force= 0.000010 in node 1077 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 1.158435e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 9.357498e-06 largest correction to disp= 5.405210e-10 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0556883, limit = 0.001, normalization = 0.000191025, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.63232, limit = 0.001, normalization = 0.773925, conv = false ---[precice]  iteration: 3 of 100, time-window: 3688, time: 0.0003687 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3688 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.687000e-04 actual step time=3.688000e-04 actual total time=3.688000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000633 in node 1128 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 2.791263e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000010 in node 1077 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 1.164887e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 9.357498e-06 largest correction to disp= 5.360799e-10 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0211809, limit = 0.001, normalization = 0.000190959, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.170349, limit = 0.001, normalization = 0.583093, conv = false ---[precice]  iteration: 4 of 100, time-window: 3688, time: 0.0003687 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3688 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.687000e-04 actual step time=3.688000e-04 actual total time=3.688000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000633 in node 1128 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 2.783417e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000010 in node 1077 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 1.162361e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 9.357498e-06 largest correction to disp= 5.416448e-10 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00429716, limit = 0.001, normalization = 0.000190957, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0113821, limit = 0.001, normalization = 0.59895, conv = false ---[precice]  iteration: 5 of 100, time-window: 3688, time: 0.0003687 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3688 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.687000e-04 actual step time=3.688000e-04 actual total time=3.688000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001542 time avg. forc= 0.000034 largest residual force= 0.000633 in node 1128 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 2.773095e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000010 in node 1077 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 1.160652e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1769 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 5.432421e-10 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000892908, limit = 0.001, normalization = 0.000190956, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0129, limit = 0.001, normalization = 0.604075, conv = false ---[precice]  iteration: 6 of 100, time-window: 3688, time: 0.0003687 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3688 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.687000e-04 actual step time=3.688000e-04 actual total time=3.688000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001542 time avg. forc= 0.000034 largest residual force= 0.000633 in node 1128 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 2.767427e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000010 in node 1077 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 1.160900e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 9.357498e-06 largest correction to disp= 5.426544e-10 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000331294, limit = 0.001, normalization = 0.000190954, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00649045, limit = 0.001, normalization = 0.603265, conv = false ---[precice]  iteration: 7 of 100, time-window: 3688, time: 0.0003687 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3688 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.687000e-04 actual step time=3.688000e-04 actual total time=3.688000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001542 time avg. forc= 0.000034 largest residual force= 0.000633 in node 1128 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 2.766688e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000010 in node 1077 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 1.160805e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 9.357498e-06 largest correction to disp= 5.427230e-10 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000172358, limit = 0.001, normalization = 0.000190954, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0028346, limit = 0.001, normalization = 0.603363, conv = false ---[precice]  iteration: 8 of 100, time-window: 3688, time: 0.0003687 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3688 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.687000e-04 actual step time=3.688000e-04 actual total time=3.688000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001542 time avg. forc= 0.000034 largest residual force= 0.000633 in node 1128 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 2.766439e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000010 in node 1077 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 1.160814e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 9.357498e-06 largest correction to disp= 5.427738e-10 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.62263e-05, limit = 0.001, normalization = 0.000190954, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00105184, limit = 0.001, normalization = 0.603834, conv = false ---[precice]  iteration: 9 of 100, time-window: 3688, time: 0.0003687 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3688 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.687000e-04 actual step time=3.688000e-04 actual total time=3.688000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001542 time avg. forc= 0.000034 largest residual force= 0.000633 in node 1128 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 2.766350e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000010 in node 1077 and dof 2 largest increment of disp= 9.357498e-06 largest correction to disp= 1.160821e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001541 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1078 and dof 1 largest increment of disp= 9.357498e-06 largest correction to disp= 5.192768e-10 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.28417e-05, limit = 0.001, normalization = 0.000190954, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00012418, limit = 0.001, normalization = 0.603868, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3689, time: 0.0003688 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3689 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.688000e-04 actual step time=3.689000e-04 actual total time=3.689000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000836 time avg. forc= 0.000034 largest residual force= 0.000550 in node 1384 and dof 2 largest increment of disp= 1.573719e-05 largest correction to disp= 1.108562e-05 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000836 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.573719e-05 largest correction to disp= 6.041601e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.201087, limit = 0.001, normalization = 0.000191668, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.04858, limit = 0.001, normalization = 1.11604, conv = false ---[precice]  iteration: 2 of 100, time-window: 3689, time: 0.0003688 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3689 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.688000e-04 actual step time=3.689000e-04 actual total time=3.689000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000846 time avg. forc= 0.000034 largest residual force= 0.000294 in node 867 and dof 2 largest increment of disp= 1.573719e-05 largest correction to disp= 4.802450e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000846 time avg. forc= 0.000034 largest residual force= 0.000033 in node 1086 and dof 2 largest increment of disp= 1.573719e-05 largest correction to disp= 5.025461e-08 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000846 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1152 and dof 2 largest increment of disp= 1.573719e-05 largest correction to disp= 1.154297e-08 in node 1086 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0510701, limit = 0.001, normalization = 0.000196545, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.400456, limit = 0.001, normalization = 1.85306, conv = false ---[precice]  iteration: 3 of 100, time-window: 3689, time: 0.0003688 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3689 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.688000e-04 actual step time=3.689000e-04 actual total time=3.689000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000847 time avg. forc= 0.000034 largest residual force= 0.000296 in node 867 and dof 2 largest increment of disp= 1.573719e-05 largest correction to disp= 5.140995e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000847 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.573719e-05 largest correction to disp= 3.980549e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0241528, limit = 0.001, normalization = 0.000196473, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.061543, limit = 0.001, normalization = 1.74113, conv = false ---[precice]  iteration: 4 of 100, time-window: 3689, time: 0.0003688 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3689 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.688000e-04 actual step time=3.689000e-04 actual total time=3.689000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000847 time avg. forc= 0.000034 largest residual force= 0.000298 in node 867 and dof 2 largest increment of disp= 1.573719e-05 largest correction to disp= 4.934634e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000847 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.573719e-05 largest correction to disp= 3.903626e-08 in node 1427 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00659719, limit = 0.001, normalization = 0.000196557, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0253345, limit = 0.001, normalization = 1.74401, conv = false ---[precice]  iteration: 5 of 100, time-window: 3689, time: 0.0003688 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3689 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.688000e-04 actual step time=3.689000e-04 actual total time=3.689000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000847 time avg. forc= 0.000034 largest residual force= 0.000296 in node 867 and dof 2 largest increment of disp= 1.573719e-05 largest correction to disp= 4.933242e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000847 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.573719e-05 largest correction to disp= 3.984515e-08 in node 1427 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00183038, limit = 0.001, normalization = 0.000196509, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0393954, limit = 0.001, normalization = 1.7363, conv = false ---[precice]  iteration: 6 of 100, time-window: 3689, time: 0.0003688 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3689 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.688000e-04 actual step time=3.689000e-04 actual total time=3.689000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000847 time avg. forc= 0.000034 largest residual force= 0.000296 in node 867 and dof 2 largest increment of disp= 1.573719e-05 largest correction to disp= 4.924954e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000847 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.573719e-05 largest correction to disp= 4.009082e-08 in node 1427 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000682169, limit = 0.001, normalization = 0.000196521, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0157688, limit = 0.001, normalization = 1.73613, conv = false ---[precice]  iteration: 7 of 100, time-window: 3689, time: 0.0003688 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3689 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.688000e-04 actual step time=3.689000e-04 actual total time=3.689000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000847 time avg. forc= 0.000034 largest residual force= 0.000297 in node 867 and dof 2 largest increment of disp= 1.573719e-05 largest correction to disp= 4.940940e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000847 time avg. forc= 0.000034 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.573719e-05 largest correction to disp= 4.018415e-08 in node 1427 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000253661, limit = 0.001, normalization = 0.000196518, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00098745, limit = 0.001, normalization = 1.73658, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3690, time: 0.0003689 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3690 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.689000e-04 actual step time=3.690000e-04 actual total time=3.690000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001537 time avg. forc= 0.000035 largest residual force= 0.000774 in node 1207 and dof 1 largest increment of disp= 5.856979e-06 largest correction to disp= 3.355472e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001537 time avg. forc= 0.000035 largest residual force= 0.000044 in node 1279 and dof 2 largest increment of disp= 5.856979e-06 largest correction to disp= 2.140367e-07 in node 1311 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001537 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.856979e-06 largest correction to disp= 1.873860e-09 in node 1278 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.141084, limit = 0.001, normalization = 0.00019625, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.79938, limit = 0.001, normalization = 0.897863, conv = false ---[precice]  iteration: 2 of 100, time-window: 3690, time: 0.0003689 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3690 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.689000e-04 actual step time=3.690000e-04 actual total time=3.690000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001508 time avg. forc= 0.000035 largest residual force= 0.000835 in node 1207 and dof 1 largest increment of disp= 5.856979e-06 largest correction to disp= 4.816627e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001508 time avg. forc= 0.000035 largest residual force= 0.000047 in node 1279 and dof 2 largest increment of disp= 5.856979e-06 largest correction to disp= 2.314533e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001508 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.856979e-06 largest correction to disp= 2.262682e-09 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0304192, limit = 0.001, normalization = 0.000193555, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.425552, limit = 0.001, normalization = 0.812323, conv = false ---[precice]  iteration: 3 of 100, time-window: 3690, time: 0.0003689 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3690 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.689000e-04 actual step time=3.690000e-04 actual total time=3.690000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001506 time avg. forc= 0.000035 largest residual force= 0.000804 in node 1207 and dof 1 largest increment of disp= 5.856979e-06 largest correction to disp= 4.502694e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001506 time avg. forc= 0.000035 largest residual force= 0.000049 in node 1279 and dof 2 largest increment of disp= 5.856979e-06 largest correction to disp= 2.182588e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001506 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.856979e-06 largest correction to disp= 2.021408e-09 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0105743, limit = 0.001, normalization = 0.000193523, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0370284, limit = 0.001, normalization = 0.817383, conv = false ---[precice]  iteration: 4 of 100, time-window: 3690, time: 0.0003689 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3690 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.689000e-04 actual step time=3.690000e-04 actual total time=3.690000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001506 time avg. forc= 0.000035 largest residual force= 0.000804 in node 1207 and dof 1 largest increment of disp= 5.856979e-06 largest correction to disp= 4.460236e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001506 time avg. forc= 0.000035 largest residual force= 0.000049 in node 1279 and dof 2 largest increment of disp= 5.856979e-06 largest correction to disp= 2.181071e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001506 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.856979e-06 largest correction to disp= 2.020859e-09 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00256332, limit = 0.001, normalization = 0.000193527, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0585357, limit = 0.001, normalization = 0.815269, conv = false ---[precice]  iteration: 5 of 100, time-window: 3690, time: 0.0003689 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3690 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.689000e-04 actual step time=3.690000e-04 actual total time=3.690000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001506 time avg. forc= 0.000035 largest residual force= 0.000804 in node 1207 and dof 1 largest increment of disp= 5.856979e-06 largest correction to disp= 4.457535e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001506 time avg. forc= 0.000035 largest residual force= 0.000049 in node 1279 and dof 2 largest increment of disp= 5.856979e-06 largest correction to disp= 2.179917e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001506 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.856979e-06 largest correction to disp= 2.019648e-09 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00126542, limit = 0.001, normalization = 0.000193535, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.032708, limit = 0.001, normalization = 0.81361, conv = false ---[precice]  iteration: 6 of 100, time-window: 3690, time: 0.0003689 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3690 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.689000e-04 actual step time=3.690000e-04 actual total time=3.690000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001506 time avg. forc= 0.000035 largest residual force= 0.000804 in node 1207 and dof 1 largest increment of disp= 5.856979e-06 largest correction to disp= 4.465970e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001506 time avg. forc= 0.000035 largest residual force= 0.000049 in node 1279 and dof 2 largest increment of disp= 5.856979e-06 largest correction to disp= 2.179972e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001506 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.856979e-06 largest correction to disp= 2.020490e-09 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000453, limit = 0.001, normalization = 0.000193536, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00220677, limit = 0.001, normalization = 0.815507, conv = false ---[precice]  iteration: 7 of 100, time-window: 3690, time: 0.0003689 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3690 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.689000e-04 actual step time=3.690000e-04 actual total time=3.690000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001506 time avg. forc= 0.000035 largest residual force= 0.000805 in node 1207 and dof 1 largest increment of disp= 5.856979e-06 largest correction to disp= 4.460720e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001506 time avg. forc= 0.000035 largest residual force= 0.000049 in node 1279 and dof 2 largest increment of disp= 5.856979e-06 largest correction to disp= 2.179834e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001506 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 5.856979e-06 largest correction to disp= 2.020461e-09 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000112085, limit = 0.001, normalization = 0.000193539, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000136658, limit = 0.001, normalization = 0.815008, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3691, time: 0.000369 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3691 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.690000e-04 actual step time=3.691000e-04 actual total time=3.691000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001358 time avg. forc= 0.000035 largest residual force= 0.000472 in node 867 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 1.091130e-05 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001358 time avg. forc= 0.000035 largest residual force= 0.000005 in node 1140 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 7.120316e-08 in node 1309 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001358 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.313798e-05 largest correction to disp= 2.447838e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.210847, limit = 0.001, normalization = 0.000191646, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.50063, limit = 0.001, normalization = 1.51874, conv = false ---[precice]  iteration: 2 of 100, time-window: 3691, time: 0.000369 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3691 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.690000e-04 actual step time=3.691000e-04 actual total time=3.691000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000431 in node 1120 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 2.783345e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000004 in node 1140 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 6.659314e-08 in node 1330 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.313798e-05 largest correction to disp= 2.105668e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0321011, limit = 0.001, normalization = 0.000192357, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.066891, limit = 0.001, normalization = 1.36587, conv = false ---[precice]  iteration: 3 of 100, time-window: 3691, time: 0.000369 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3691 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.690000e-04 actual step time=3.691000e-04 actual total time=3.691000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000432 in node 1120 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 2.770292e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000004 in node 1140 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 6.699779e-08 in node 1330 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.313798e-05 largest correction to disp= 2.086026e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0114305, limit = 0.001, normalization = 0.000192395, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.117465, limit = 0.001, normalization = 1.3677, conv = false ---[precice]  iteration: 4 of 100, time-window: 3691, time: 0.000369 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3691 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.690000e-04 actual step time=3.691000e-04 actual total time=3.691000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000431 in node 1120 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 2.767169e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000004 in node 1140 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 6.687113e-08 in node 1330 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.313798e-05 largest correction to disp= 2.075449e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00651744, limit = 0.001, normalization = 0.00019237, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0401709, limit = 0.001, normalization = 1.36848, conv = false ---[precice]  iteration: 5 of 100, time-window: 3691, time: 0.000369 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3691 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.690000e-04 actual step time=3.691000e-04 actual total time=3.691000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000431 in node 1120 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 2.780499e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000004 in node 1140 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 6.684739e-08 in node 1330 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.313798e-05 largest correction to disp= 2.071218e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00111706, limit = 0.001, normalization = 0.000192373, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0253464, limit = 0.001, normalization = 1.36865, conv = false ---[precice]  iteration: 6 of 100, time-window: 3691, time: 0.000369 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3691 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.690000e-04 actual step time=3.691000e-04 actual total time=3.691000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000431 in node 1120 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 2.740423e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000004 in node 1140 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 6.675026e-08 in node 1330 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.313798e-05 largest correction to disp= 2.073057e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00164804, limit = 0.001, normalization = 0.000192383, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0114576, limit = 0.001, normalization = 1.36931, conv = false ---[precice]  iteration: 7 of 100, time-window: 3691, time: 0.000369 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3691 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.690000e-04 actual step time=3.691000e-04 actual total time=3.691000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000431 in node 1120 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 2.736655e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000004 in node 1140 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 6.674174e-08 in node 1330 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.313798e-05 largest correction to disp= 2.072223e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000479467, limit = 0.001, normalization = 0.000192383, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00128692, limit = 0.001, normalization = 1.36973, conv = false ---[precice]  iteration: 8 of 100, time-window: 3691, time: 0.000369 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3691 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.690000e-04 actual step time=3.691000e-04 actual total time=3.691000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000431 in node 1120 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 2.733535e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000004 in node 1140 and dof 2 largest increment of disp= 1.313798e-05 largest correction to disp= 9.853361e-08 in node 347 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001306 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.313798e-05 largest correction to disp= 2.076801e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.67175e-05, limit = 0.001, normalization = 0.000192384, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 7.67994e-05, limit = 0.001, normalization = 1.36976, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3692, time: 0.0003691 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3692 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.691000e-04 actual step time=3.692000e-04 actual total time=3.692000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001144 time avg. forc= 0.000035 largest residual force= 0.000500 in node 1384 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 8.824415e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001144 time avg. forc= 0.000035 largest residual force= 0.000003 in node 1186 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 5.807613e-08 in node 1288 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001144 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 1.556932e-10 in node 1077 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.17162, limit = 0.001, normalization = 0.000195375, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.43237, limit = 0.001, normalization = 0.595979, conv = false ---[precice]  iteration: 2 of 100, time-window: 3692, time: 0.0003691 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3692 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.691000e-04 actual step time=3.692000e-04 actual total time=3.692000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001154 time avg. forc= 0.000035 largest residual force= 0.000379 in node 1386 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 6.235403e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000003 in node 1186 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 6.598075e-08 in node 1288 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 1.389906e-10 in node 1077 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0412068, limit = 0.001, normalization = 0.000198575, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.423624, limit = 0.001, normalization = 1.69783, conv = false ---[precice]  iteration: 3 of 100, time-window: 3692, time: 0.0003691 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3692 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.691000e-04 actual step time=3.692000e-04 actual total time=3.692000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000371 in node 1384 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 6.423357e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000003 in node 1186 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 5.869852e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 1.380463e-10 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00590339, limit = 0.001, normalization = 0.000198352, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0954967, limit = 0.001, normalization = 1.57543, conv = false ---[precice]  iteration: 4 of 100, time-window: 3692, time: 0.0003691 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3692 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.691000e-04 actual step time=3.692000e-04 actual total time=3.692000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000368 in node 1384 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 6.267082e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000003 in node 1186 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 5.752958e-08 in node 1288 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 1.353308e-10 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00334015, limit = 0.001, normalization = 0.000198386, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0424361, limit = 0.001, normalization = 1.57437, conv = false ---[precice]  iteration: 5 of 100, time-window: 3692, time: 0.0003691 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3692 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.691000e-04 actual step time=3.692000e-04 actual total time=3.692000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000368 in node 1384 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 6.261620e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000003 in node 1186 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 5.754782e-08 in node 1288 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 1.355914e-10 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00124348, limit = 0.001, normalization = 0.0001984, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00272019, limit = 0.001, normalization = 1.5738, conv = false ---[precice]  iteration: 6 of 100, time-window: 3692, time: 0.0003691 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3692 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.691000e-04 actual step time=3.692000e-04 actual total time=3.692000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001154 time avg. forc= 0.000035 largest residual force= 0.011666 in node 1233 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 6.230170e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000237 in node 1254 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 3.976029e-06 in node 1233 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 4.759579e-09 in node 1360 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000207175, limit = 0.001, normalization = 0.000198404, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00809006, limit = 0.001, normalization = 1.57381, conv = false ---[precice]  iteration: 7 of 100, time-window: 3692, time: 0.0003691 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3692 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.691000e-04 actual step time=3.692000e-04 actual total time=3.692000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000368 in node 1384 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 6.260925e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000014 in node 371 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 5.752541e-08 in node 1288 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001153 time avg. forc= 0.000035 largest residual force= 0.000000 in node 447 and dof 2 largest increment of disp= 1.288110e-05 largest correction to disp= 2.305289e-09 in node 447 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000228492, limit = 0.001, normalization = 0.000198404, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000535976, limit = 0.001, normalization = 1.57383, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3693, time: 0.0003692 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3693 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.692000e-04 actual step time=3.693000e-04 actual total time=3.693000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001740 time avg. forc= 0.000036 largest residual force= 0.000776 in node 1128 and dof 2 largest increment of disp= 1.002462e-05 largest correction to disp= 7.557225e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001740 time avg. forc= 0.000036 largest residual force= 0.000024 in node 1255 and dof 2 largest increment of disp= 1.002462e-05 largest correction to disp= 1.544080e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001740 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 1.002462e-05 largest correction to disp= 1.087438e-09 in node 1128 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.179331, limit = 0.001, normalization = 0.000196056, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.02998, limit = 0.001, normalization = 1.4739, conv = false ---[precice]  iteration: 2 of 100, time-window: 3693, time: 0.0003692 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3693 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.692000e-04 actual step time=3.693000e-04 actual total time=3.693000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001682 time avg. forc= 0.000036 largest residual force= 0.000791 in node 1128 and dof 2 largest increment of disp= 1.002462e-05 largest correction to disp= 3.100013e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001681 time avg. forc= 0.000036 largest residual force= 0.000022 in node 1077 and dof 2 largest increment of disp= 1.002462e-05 largest correction to disp= 1.736172e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001681 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 1.002462e-05 largest correction to disp= 1.235582e-09 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0310258, limit = 0.001, normalization = 0.000191496, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.366945, limit = 0.001, normalization = 1.17151, conv = false ---[precice]  iteration: 3 of 100, time-window: 3693, time: 0.0003692 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3693 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.692000e-04 actual step time=3.693000e-04 actual total time=3.693000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001682 time avg. forc= 0.000036 largest residual force= 0.000791 in node 1128 and dof 2 largest increment of disp= 1.002462e-05 largest correction to disp= 3.138887e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001681 time avg. forc= 0.000036 largest residual force= 0.000023 in node 1077 and dof 2 largest increment of disp= 1.002462e-05 largest correction to disp= 1.695797e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001682 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 1.002462e-05 largest correction to disp= 1.343028e-09 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00929234, limit = 0.001, normalization = 0.000191563, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0435437, limit = 0.001, normalization = 0.654617, conv = false ---[precice]  iteration: 4 of 100, time-window: 3693, time: 0.0003692 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3693 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.692000e-04 actual step time=3.693000e-04 actual total time=3.693000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001682 time avg. forc= 0.000036 largest residual force= 0.000791 in node 1128 and dof 2 largest increment of disp= 1.002462e-05 largest correction to disp= 3.091307e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001681 time avg. forc= 0.000036 largest residual force= 0.000023 in node 1077 and dof 2 largest increment of disp= 1.002462e-05 largest correction to disp= 1.705560e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001681 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 1.002462e-05 largest correction to disp= 1.340809e-09 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00306138, limit = 0.001, normalization = 0.000191561, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0899094, limit = 0.001, normalization = 0.64753, conv = false ---[precice]  iteration: 5 of 100, time-window: 3693, time: 0.0003692 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3693 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.692000e-04 actual step time=3.693000e-04 actual total time=3.693000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001682 time avg. forc= 0.000036 largest residual force= 0.000792 in node 1128 and dof 2 largest increment of disp= 1.002462e-05 largest correction to disp= 3.101936e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001681 time avg. forc= 0.000036 largest residual force= 0.000023 in node 1077 and dof 2 largest increment of disp= 1.002462e-05 largest correction to disp= 1.707687e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001681 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 1.002462e-05 largest correction to disp= 1.342689e-09 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000953527, limit = 0.001, normalization = 0.000191582, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0452205, limit = 0.001, normalization = 0.644696, conv = false ---[precice]  iteration: 6 of 100, time-window: 3693, time: 0.0003692 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3693 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.692000e-04 actual step time=3.693000e-04 actual total time=3.693000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001682 time avg. forc= 0.000036 largest residual force= 0.000791 in node 1128 and dof 2 largest increment of disp= 1.002462e-05 largest correction to disp= 3.093549e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001681 time avg. forc= 0.000036 largest residual force= 0.000023 in node 1077 and dof 2 largest increment of disp= 1.002462e-05 largest correction to disp= 1.708333e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001681 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 1.002462e-05 largest correction to disp= 1.341833e-09 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000617744, limit = 0.001, normalization = 0.000191578, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00999657, limit = 0.001, normalization = 0.642966, conv = false ---[precice]  iteration: 7 of 100, time-window: 3693, time: 0.0003692 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3693 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.692000e-04 actual step time=3.693000e-04 actual total time=3.693000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001682 time avg. forc= 0.000036 largest residual force= 0.000791 in node 1128 and dof 2 largest increment of disp= 1.002462e-05 largest correction to disp= 3.091669e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001681 time avg. forc= 0.000036 largest residual force= 0.000023 in node 1077 and dof 2 largest increment of disp= 1.002462e-05 largest correction to disp= 1.708236e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001681 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1076 and dof 1 largest increment of disp= 1.002462e-05 largest correction to disp= 1.341478e-09 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000166518, limit = 0.001, normalization = 0.000191577, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000646076, limit = 0.001, normalization = 0.643225, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3694, time: 0.0003693 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3694 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.693000e-04 actual step time=3.694000e-04 actual total time=3.694000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000914 time avg. forc= 0.000036 largest residual force= 0.000676 in node 1384 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 1.217915e-05 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000914 time avg. forc= 0.000036 largest residual force= 0.000001 in node 1469 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 7.919206e-08 in node 1598 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000914 time avg. forc= 0.000036 largest residual force= 0.000000 in node 652 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 9.911844e-11 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.219262, limit = 0.001, normalization = 0.000192354, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.0618, limit = 0.001, normalization = 1.21886, conv = false ---[precice]  iteration: 2 of 100, time-window: 3694, time: 0.0003693 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3694 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.693000e-04 actual step time=3.694000e-04 actual total time=3.694000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000924 time avg. forc= 0.000036 largest residual force= 0.000370 in node 1384 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 5.630591e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000924 time avg. forc= 0.000036 largest residual force= 0.000001 in node 1469 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 6.515409e-08 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000924 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 8.179463e-11 in node 1448 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0257437, limit = 0.001, normalization = 0.000197576, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.671835, limit = 0.001, normalization = 2.06422, conv = false ---[precice]  iteration: 3 of 100, time-window: 3694, time: 0.0003693 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3694 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.693000e-04 actual step time=3.694000e-04 actual total time=3.694000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000923 time avg. forc= 0.000036 largest residual force= 0.000369 in node 1384 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 5.627043e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000923 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 5.577190e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0154069, limit = 0.001, normalization = 0.000197822, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.284121, limit = 0.001, normalization = 1.90026, conv = false ---[precice]  iteration: 4 of 100, time-window: 3694, time: 0.0003693 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3694 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.693000e-04 actual step time=3.694000e-04 actual total time=3.694000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000923 time avg. forc= 0.000036 largest residual force= 0.000363 in node 1384 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 5.429580e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000923 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 5.480172e-08 in node 1427 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00390148, limit = 0.001, normalization = 0.000198041, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0786487, limit = 0.001, normalization = 1.90281, conv = false ---[precice]  iteration: 5 of 100, time-window: 3694, time: 0.0003693 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3694 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.693000e-04 actual step time=3.694000e-04 actual total time=3.694000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000924 time avg. forc= 0.000036 largest residual force= 0.000365 in node 1384 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 5.401601e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000924 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 5.415556e-08 in node 1427 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00232975, limit = 0.001, normalization = 0.000198104, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0428389, limit = 0.001, normalization = 1.89107, conv = false ---[precice]  iteration: 6 of 100, time-window: 3694, time: 0.0003693 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3694 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.693000e-04 actual step time=3.694000e-04 actual total time=3.694000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000924 time avg. forc= 0.000036 largest residual force= 0.000366 in node 1384 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 5.426951e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000924 time avg. forc= 0.000036 largest residual force= 0.000033 in node 1811 and dof 1 largest increment of disp= 1.725200e-05 largest correction to disp= 5.388009e-08 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000924 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1810 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 1.287308e-08 in node 1757 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00080958, limit = 0.001, normalization = 0.000198079, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0199789, limit = 0.001, normalization = 1.89242, conv = false ---[precice]  iteration: 7 of 100, time-window: 3694, time: 0.0003693 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3694 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.693000e-04 actual step time=3.694000e-04 actual total time=3.694000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000924 time avg. forc= 0.000036 largest residual force= 0.000366 in node 1384 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 5.435237e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.000924 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.725200e-05 largest correction to disp= 5.370927e-08 in node 1427 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000290593, limit = 0.001, normalization = 0.000198064, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000670506, limit = 0.001, normalization = 1.89268, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3695, time: 0.0003694 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3695 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.694000e-04 actual step time=3.695000e-04 actual total time=3.695000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001661 time avg. forc= 0.000036 largest residual force= 0.001120 in node 1207 and dof 1 largest increment of disp= 6.388888e-06 largest correction to disp= 3.725394e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001661 time avg. forc= 0.000036 largest residual force= 0.000107 in node 1279 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 3.106474e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001662 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1598 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 4.711067e-09 in node 1280 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.152744, limit = 0.001, normalization = 0.000197884, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.90837, limit = 0.001, normalization = 0.931594, conv = false ---[precice]  iteration: 2 of 100, time-window: 3695, time: 0.0003694 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3695 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.694000e-04 actual step time=3.695000e-04 actual total time=3.695000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001630 time avg. forc= 0.000036 largest residual force= 0.001211 in node 1207 and dof 1 largest increment of disp= 6.388888e-06 largest correction to disp= 5.090775e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001630 time avg. forc= 0.000036 largest residual force= 0.000119 in node 1279 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 3.352160e-07 in node 1385 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001630 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 5.569059e-09 in node 1280 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0152228, limit = 0.001, normalization = 0.000194921, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.493337, limit = 0.001, normalization = 0.971709, conv = false ---[precice]  iteration: 3 of 100, time-window: 3695, time: 0.0003694 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3695 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.694000e-04 actual step time=3.695000e-04 actual total time=3.695000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.001173 in node 1207 and dof 1 largest increment of disp= 6.388888e-06 largest correction to disp= 4.974897e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.000122 in node 1279 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 3.227975e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 5.232404e-09 in node 1280 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00481955, limit = 0.001, normalization = 0.000194857, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.187663, limit = 0.001, normalization = 0.915786, conv = false ---[precice]  iteration: 4 of 100, time-window: 3695, time: 0.0003694 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3695 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.694000e-04 actual step time=3.695000e-04 actual total time=3.695000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.001169 in node 1207 and dof 1 largest increment of disp= 6.388888e-06 largest correction to disp= 4.890183e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.000121 in node 1279 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 3.213179e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 5.218962e-09 in node 1280 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00240266, limit = 0.001, normalization = 0.000194818, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0108834, limit = 0.001, normalization = 0.922656, conv = false ---[precice]  iteration: 5 of 100, time-window: 3695, time: 0.0003694 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3695 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.694000e-04 actual step time=3.695000e-04 actual total time=3.695000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.001170 in node 1207 and dof 1 largest increment of disp= 6.388888e-06 largest correction to disp= 4.866606e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.000121 in node 1279 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 3.213946e-07 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 5.220616e-09 in node 1280 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00109261, limit = 0.001, normalization = 0.000194835, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.000972534, limit = 0.001, normalization = 0.9175, conv = true ---[precice]  iteration: 6 of 100, time-window: 3695, time: 0.0003694 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3695 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.694000e-04 actual step time=3.695000e-04 actual total time=3.695000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.001170 in node 1207 and dof 1 largest increment of disp= 6.388888e-06 largest correction to disp= 4.872978e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.000121 in node 1279 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 3.214650e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 5.218523e-09 in node 1280 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000298595, limit = 0.001, normalization = 0.00019483, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00805208, limit = 0.001, normalization = 0.917538, conv = false ---[precice]  iteration: 7 of 100, time-window: 3695, time: 0.0003694 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3695 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.694000e-04 actual step time=3.695000e-04 actual total time=3.695000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.012195 in node 1015 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 5.649687e-06 in node 1015 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.000250 in node 1141 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 5.452557e-06 in node 1015 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.000017 in node 1439 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 7.722836e-09 in node 1313 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001629 time avg. forc= 0.000036 largest residual force= 0.000000 in node 1460 and dof 2 largest increment of disp= 6.388888e-06 largest correction to disp= 6.437602e-09 in node 1439 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000111765, limit = 0.001, normalization = 0.000194829, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000549198, limit = 0.001, normalization = 0.91915, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3696, time: 0.0003695 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3696 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.695000e-04 actual step time=3.696000e-04 actual total time=3.696000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001497 time avg. forc= 0.000037 largest residual force= 0.000573 in node 1098 and dof 3 largest increment of disp= 1.408978e-05 largest correction to disp= 1.174521e-05 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001496 time avg. forc= 0.000037 largest residual force= 0.000011 in node 1140 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 1.039403e-07 in node 1119 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001496 time avg. forc= 0.000037 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.408978e-05 largest correction to disp= 5.892476e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.228226, limit = 0.001, normalization = 0.000192492, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.5233, limit = 0.001, normalization = 1.65139, conv = false ---[precice]  iteration: 2 of 100, time-window: 3696, time: 0.0003695 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3696 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.695000e-04 actual step time=3.696000e-04 actual total time=3.696000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001440 time avg. forc= 0.000037 largest residual force= 0.000563 in node 1062 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 2.954982e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001440 time avg. forc= 0.000037 largest residual force= 0.000010 in node 1140 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 9.499626e-08 in node 993 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001440 time avg. forc= 0.000037 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.408978e-05 largest correction to disp= 5.003266e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0436708, limit = 0.001, normalization = 0.000193051, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.355709, limit = 0.001, normalization = 1.47243, conv = false ---[precice]  iteration: 3 of 100, time-window: 3696, time: 0.0003695 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3696 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.695000e-04 actual step time=3.696000e-04 actual total time=3.696000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000562 in node 1062 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 2.976239e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000046 in node 1598 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 9.413068e-08 in node 1309 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000000 in node 1598 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 1.648842e-08 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00862206, limit = 0.001, normalization = 0.000193082, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.021411, limit = 0.001, normalization = 1.46559, conv = false ---[precice]  iteration: 4 of 100, time-window: 3696, time: 0.0003695 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3696 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.695000e-04 actual step time=3.696000e-04 actual total time=3.696000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000561 in node 1062 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 2.940596e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000010 in node 1140 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 9.251307e-08 in node 1119 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.408978e-05 largest correction to disp= 4.941014e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00333411, limit = 0.001, normalization = 0.000193113, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0217708, limit = 0.001, normalization = 1.4677, conv = false ---[precice]  iteration: 5 of 100, time-window: 3696, time: 0.0003695 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3696 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.695000e-04 actual step time=3.696000e-04 actual total time=3.696000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000561 in node 1062 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 2.958781e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000010 in node 1140 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 9.273693e-08 in node 1309 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.408978e-05 largest correction to disp= 4.945459e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00120735, limit = 0.001, normalization = 0.000193128, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0105918, limit = 0.001, normalization = 1.46927, conv = false ---[precice]  iteration: 6 of 100, time-window: 3696, time: 0.0003695 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3696 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.695000e-04 actual step time=3.696000e-04 actual total time=3.696000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000561 in node 1062 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 2.953358e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000010 in node 1140 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 9.269300e-08 in node 1309 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.408978e-05 largest correction to disp= 4.938590e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00038626, limit = 0.001, normalization = 0.000193124, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00488863, limit = 0.001, normalization = 1.46887, conv = false ---[precice]  iteration: 7 of 100, time-window: 3696, time: 0.0003695 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3696 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.695000e-04 actual step time=3.696000e-04 actual total time=3.696000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000561 in node 1062 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 2.949820e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000010 in node 1140 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 9.261895e-08 in node 1309 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.408978e-05 largest correction to disp= 4.935067e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000211579, limit = 0.001, normalization = 0.00019312, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0034138, limit = 0.001, normalization = 1.46859, conv = false ---[precice]  iteration: 8 of 100, time-window: 3696, time: 0.0003695 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3696 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.695000e-04 actual step time=3.696000e-04 actual total time=3.696000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000561 in node 1062 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 2.951423e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000010 in node 1140 and dof 2 largest increment of disp= 1.408978e-05 largest correction to disp= 9.262068e-08 in node 1309 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001438 time avg. forc= 0.000037 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.408978e-05 largest correction to disp= 4.933971e-10 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.98814e-05, limit = 0.001, normalization = 0.000193121, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000842198, limit = 0.001, normalization = 1.46871, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3697, time: 0.0003696 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3697 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.696000e-04 actual step time=3.697000e-04 actual total time=3.697000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001228 time avg. forc= 0.000037 largest residual force= 0.000607 in node 1384 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 9.806947e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001228 time avg. forc= 0.000037 largest residual force= 0.000007 in node 1186 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 7.833493e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001228 time avg. forc= 0.000037 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 2.872283e-10 in node 1077 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.187647, limit = 0.001, normalization = 0.000196621, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.44729, limit = 0.001, normalization = 0.619921, conv = false ---[precice]  iteration: 2 of 100, time-window: 3697, time: 0.0003696 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3697 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.696000e-04 actual step time=3.697000e-04 actual total time=3.697000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001240 time avg. forc= 0.000037 largest residual force= 0.000474 in node 1186 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 6.849052e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001240 time avg. forc= 0.000037 largest residual force= 0.000007 in node 1186 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 8.482424e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001240 time avg. forc= 0.000037 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 2.742762e-10 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0230999, limit = 0.001, normalization = 0.000200492, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.171274, limit = 0.001, normalization = 1.80038, conv = false ---[precice]  iteration: 3 of 100, time-window: 3697, time: 0.0003696 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3697 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.696000e-04 actual step time=3.697000e-04 actual total time=3.697000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000475 in node 1186 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 6.980617e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000007 in node 1186 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 7.872589e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 2.657414e-10 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00928873, limit = 0.001, normalization = 0.000200362, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.147061, limit = 0.001, normalization = 1.73566, conv = false ---[precice]  iteration: 4 of 100, time-window: 3697, time: 0.0003696 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3697 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.696000e-04 actual step time=3.697000e-04 actual total time=3.697000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.001468 in node 556 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 6.890437e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000014 in node 1844 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 4.139515e-07 in node 556 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000000 in node 1970 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 3.932258e-09 in node 1844 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00404674, limit = 0.001, normalization = 0.000200365, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0295334, limit = 0.001, normalization = 1.73261, conv = false ---[precice]  iteration: 5 of 100, time-window: 3697, time: 0.0003696 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3697 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.696000e-04 actual step time=3.697000e-04 actual total time=3.697000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000466 in node 1186 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 6.840736e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000006 in node 1186 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 7.700432e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 2.607164e-10 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00132604, limit = 0.001, normalization = 0.00020038, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0491556, limit = 0.001, normalization = 1.73358, conv = false ---[precice]  iteration: 6 of 100, time-window: 3697, time: 0.0003696 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3697 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.696000e-04 actual step time=3.697000e-04 actual total time=3.697000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001242 time avg. forc= 0.000037 largest residual force= 0.007907 in node 565 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 6.843769e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000087 in node 558 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 1.523816e-06 in node 558 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000000 in node 558 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 3.625489e-09 in node 558 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000416879, limit = 0.001, normalization = 0.000200392, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0157114, limit = 0.001, normalization = 1.73369, conv = false ---[precice]  iteration: 7 of 100, time-window: 3697, time: 0.0003696 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3697 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.696000e-04 actual step time=3.697000e-04 actual total time=3.697000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000470 in node 1186 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 6.845859e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000007 in node 1186 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 7.720924e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 2.623934e-10 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000165395, limit = 0.001, normalization = 0.000200397, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00135343, limit = 0.001, normalization = 1.73363, conv = false ---[precice]  iteration: 8 of 100, time-window: 3697, time: 0.0003696 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3697 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.696000e-04 actual step time=3.697000e-04 actual total time=3.697000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000470 in node 1186 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 6.845470e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000007 in node 1186 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 7.722048e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001239 time avg. forc= 0.000037 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.430788e-05 largest correction to disp= 2.623000e-10 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.60043e-05, limit = 0.001, normalization = 0.000200397, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000593124, limit = 0.001, normalization = 1.73362, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3698, time: 0.0003697 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3698 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.697000e-04 actual step time=3.698000e-04 actual total time=3.698000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001898 time avg. forc= 0.000038 largest residual force= 0.001037 in node 1213 and dof 3 largest increment of disp= 1.086504e-05 largest correction to disp= 8.007463e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001898 time avg. forc= 0.000038 largest residual force= 0.000095 in node 1255 and dof 2 largest increment of disp= 1.086504e-05 largest correction to disp= 2.383375e-07 in node 1213 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001898 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 1.086504e-05 largest correction to disp= 3.405352e-09 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.192765, limit = 0.001, normalization = 0.000197681, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.06023, limit = 0.001, normalization = 1.58289, conv = false ---[precice]  iteration: 2 of 100, time-window: 3698, time: 0.0003697 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3698 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.697000e-04 actual step time=3.698000e-04 actual total time=3.698000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001838 time avg. forc= 0.000038 largest residual force= 0.000939 in node 1080 and dof 2 largest increment of disp= 1.086504e-05 largest correction to disp= 3.187674e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001837 time avg. forc= 0.000038 largest residual force= 0.000068 in node 1255 and dof 2 largest increment of disp= 1.086504e-05 largest correction to disp= 2.641232e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001837 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1149 and dof 2 largest increment of disp= 1.086504e-05 largest correction to disp= 3.631485e-09 in node 1128 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0426047, limit = 0.001, normalization = 0.000192045, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.910224, limit = 0.001, normalization = 0.855168, conv = false ---[precice]  iteration: 3 of 100, time-window: 3698, time: 0.0003697 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3698 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.697000e-04 actual step time=3.698000e-04 actual total time=3.698000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000949 in node 1002 and dof 1 largest increment of disp= 1.086504e-05 largest correction to disp= 3.491255e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000066 in node 1255 and dof 2 largest increment of disp= 1.086504e-05 largest correction to disp= 2.614639e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1210 and dof 1 largest increment of disp= 1.086504e-05 largest correction to disp= 4.070540e-09 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0101685, limit = 0.001, normalization = 0.000192309, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.280779, limit = 0.001, normalization = 0.726812, conv = false ---[precice]  iteration: 4 of 100, time-window: 3698, time: 0.0003697 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3698 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.697000e-04 actual step time=3.698000e-04 actual total time=3.698000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000947 in node 1002 and dof 1 largest increment of disp= 1.086504e-05 largest correction to disp= 3.451402e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000066 in node 1255 and dof 2 largest increment of disp= 1.086504e-05 largest correction to disp= 2.603214e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1980 and dof 1 largest increment of disp= 1.086504e-05 largest correction to disp= 4.081718e-09 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00223359, limit = 0.001, normalization = 0.000192274, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00782441, limit = 0.001, normalization = 0.69591, conv = false ---[precice]  iteration: 5 of 100, time-window: 3698, time: 0.0003697 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3698 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.697000e-04 actual step time=3.698000e-04 actual total time=3.698000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000948 in node 1002 and dof 1 largest increment of disp= 1.086504e-05 largest correction to disp= 3.436898e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000066 in node 1255 and dof 2 largest increment of disp= 1.086504e-05 largest correction to disp= 2.602096e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1210 and dof 1 largest increment of disp= 1.086504e-05 largest correction to disp= 4.094168e-09 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000820315, limit = 0.001, normalization = 0.000192286, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0126027, limit = 0.001, normalization = 0.682053, conv = false ---[precice]  iteration: 6 of 100, time-window: 3698, time: 0.0003697 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3698 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.697000e-04 actual step time=3.698000e-04 actual total time=3.698000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000948 in node 1002 and dof 1 largest increment of disp= 1.086504e-05 largest correction to disp= 3.435287e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000066 in node 1255 and dof 2 largest increment of disp= 1.086504e-05 largest correction to disp= 2.600873e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1210 and dof 1 largest increment of disp= 1.086504e-05 largest correction to disp= 4.097509e-09 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000234607, limit = 0.001, normalization = 0.000192286, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00599545, limit = 0.001, normalization = 0.682957, conv = false ---[precice]  iteration: 7 of 100, time-window: 3698, time: 0.0003697 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3698 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.697000e-04 actual step time=3.698000e-04 actual total time=3.698000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000948 in node 1002 and dof 1 largest increment of disp= 1.086504e-05 largest correction to disp= 3.436400e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000066 in node 1255 and dof 2 largest increment of disp= 1.086504e-05 largest correction to disp= 2.600551e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1210 and dof 1 largest increment of disp= 1.086504e-05 largest correction to disp= 4.098294e-09 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000132438, limit = 0.001, normalization = 0.000192284, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00140613, limit = 0.001, normalization = 0.683784, conv = false ---[precice]  iteration: 8 of 100, time-window: 3698, time: 0.0003697 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3698 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.697000e-04 actual step time=3.698000e-04 actual total time=3.698000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000948 in node 1002 and dof 1 largest increment of disp= 1.086504e-05 largest correction to disp= 3.436408e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000066 in node 1255 and dof 2 largest increment of disp= 1.086504e-05 largest correction to disp= 2.600540e-07 in node 1001 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001834 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1210 and dof 1 largest increment of disp= 1.086504e-05 largest correction to disp= 4.098129e-09 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.71415e-05, limit = 0.001, normalization = 0.000192284, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00025557, limit = 0.001, normalization = 0.683655, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3699, time: 0.0003698 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3699 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.698000e-04 actual step time=3.699000e-04 actual total time=3.699000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001001 time avg. forc= 0.000038 largest residual force= 0.000861 in node 1384 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 1.337776e-05 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001001 time avg. forc= 0.000038 largest residual force= 0.000002 in node 1469 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 9.708331e-08 in node 1598 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001001 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 1.482242e-10 in node 1598 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.239121, limit = 0.001, normalization = 0.00019312, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.07299, limit = 0.001, normalization = 1.33223, conv = false ---[precice]  iteration: 2 of 100, time-window: 3699, time: 0.0003698 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3699 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.698000e-04 actual step time=3.699000e-04 actual total time=3.699000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001009 time avg. forc= 0.000038 largest residual force= 0.000471 in node 1384 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 5.586722e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001010 time avg. forc= 0.000038 largest residual force= 0.000003 in node 1469 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 9.398556e-08 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001010 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1404 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 1.728336e-10 in node 1448 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0240482, limit = 0.001, normalization = 0.000199708, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.496253, limit = 0.001, normalization = 2.25673, conv = false ---[precice]  iteration: 3 of 100, time-window: 3699, time: 0.0003698 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3699 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.698000e-04 actual step time=3.699000e-04 actual total time=3.699000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001010 time avg. forc= 0.000038 largest residual force= 0.000485 in node 1384 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 6.068294e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001009 time avg. forc= 0.000038 largest residual force= 0.000002 in node 1469 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 7.915495e-08 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001009 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 1.299079e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.015708, limit = 0.001, normalization = 0.000199707, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.141987, limit = 0.001, normalization = 2.07138, conv = false ---[precice]  iteration: 4 of 100, time-window: 3699, time: 0.0003698 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3699 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.698000e-04 actual step time=3.699000e-04 actual total time=3.699000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001010 time avg. forc= 0.000038 largest residual force= 0.000481 in node 1384 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 5.875318e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001010 time avg. forc= 0.000038 largest residual force= 0.000002 in node 1469 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 8.116246e-08 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001010 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 1.323428e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00403122, limit = 0.001, normalization = 0.000199864, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0171235, limit = 0.001, normalization = 2.05507, conv = false ---[precice]  iteration: 5 of 100, time-window: 3699, time: 0.0003698 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3699 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.698000e-04 actual step time=3.699000e-04 actual total time=3.699000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001010 time avg. forc= 0.000038 largest residual force= 0.000484 in node 1384 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 5.950716e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001010 time avg. forc= 0.000038 largest residual force= 0.000002 in node 1469 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 7.956198e-08 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001010 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 1.319474e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00154354, limit = 0.001, normalization = 0.000199826, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0193069, limit = 0.001, normalization = 2.06069, conv = false ---[precice]  iteration: 6 of 100, time-window: 3699, time: 0.0003698 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3699 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.698000e-04 actual step time=3.699000e-04 actual total time=3.699000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001010 time avg. forc= 0.000038 largest residual force= 0.000484 in node 1384 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 5.964134e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001010 time avg. forc= 0.000038 largest residual force= 0.000002 in node 1469 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 7.892947e-08 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001010 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 1.318759e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000708066, limit = 0.001, normalization = 0.000199823, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00767169, limit = 0.001, normalization = 2.05952, conv = false ---[precice]  iteration: 7 of 100, time-window: 3699, time: 0.0003698 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3699 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.698000e-04 actual step time=3.699000e-04 actual total time=3.699000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001010 time avg. forc= 0.000038 largest residual force= 0.000484 in node 1384 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 5.954111e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001010 time avg. forc= 0.000038 largest residual force= 0.000002 in node 1469 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 7.897703e-08 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001010 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 1.889555e-05 largest correction to disp= 1.319038e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000331605, limit = 0.001, normalization = 0.000199825, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000822166, limit = 0.001, normalization = 2.06028, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3700, time: 0.0003699 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3700 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.699000e-04 actual step time=3.700000e-04 actual total time=3.700000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001794 time avg. forc= 0.000038 largest residual force= 0.001674 in node 1207 and dof 1 largest increment of disp= 6.934910e-06 largest correction to disp= 4.100337e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001795 time avg. forc= 0.000038 largest residual force= 0.000283 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 4.969168e-07 in node 1417 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001795 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 1.415261e-08 in node 1385 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.165386, limit = 0.001, normalization = 0.000199778, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.98668, limit = 0.001, normalization = 0.977721, conv = false ---[precice]  iteration: 2 of 100, time-window: 3700, time: 0.0003699 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3700 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.699000e-04 actual step time=3.700000e-04 actual total time=3.700000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001760 time avg. forc= 0.000038 largest residual force= 0.001831 in node 1207 and dof 1 largest increment of disp= 6.934910e-06 largest correction to disp= 5.880006e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001761 time avg. forc= 0.000038 largest residual force= 0.000319 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 5.439949e-07 in node 1385 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001762 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 1.663047e-08 in node 1280 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.031561, limit = 0.001, normalization = 0.000196373, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.225931, limit = 0.001, normalization = 1.04655, conv = false ---[precice]  iteration: 3 of 100, time-window: 3700, time: 0.0003699 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3700 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.699000e-04 actual step time=3.700000e-04 actual total time=3.700000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001760 time avg. forc= 0.000038 largest residual force= 0.001783 in node 1313 and dof 3 largest increment of disp= 6.934910e-06 largest correction to disp= 5.487281e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001761 time avg. forc= 0.000038 largest residual force= 0.000331 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 5.400900e-07 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001761 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 1.621869e-08 in node 1280 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00947505, limit = 0.001, normalization = 0.000196336, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.113639, limit = 0.001, normalization = 1.04842, conv = false ---[precice]  iteration: 4 of 100, time-window: 3700, time: 0.0003699 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3700 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.699000e-04 actual step time=3.700000e-04 actual total time=3.700000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001760 time avg. forc= 0.000038 largest residual force= 0.001775 in node 1313 and dof 3 largest increment of disp= 6.934910e-06 largest correction to disp= 5.404918e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001760 time avg. forc= 0.000038 largest residual force= 0.000329 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 5.395093e-07 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001761 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 1.613327e-08 in node 1280 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00293766, limit = 0.001, normalization = 0.000196335, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0599821, limit = 0.001, normalization = 1.02892, conv = false ---[precice]  iteration: 5 of 100, time-window: 3700, time: 0.0003699 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3700 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.699000e-04 actual step time=3.700000e-04 actual total time=3.700000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001760 time avg. forc= 0.000038 largest residual force= 0.001778 in node 1313 and dof 3 largest increment of disp= 6.934910e-06 largest correction to disp= 5.366081e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001761 time avg. forc= 0.000038 largest residual force= 0.000330 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 5.398039e-07 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001761 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 1.617859e-08 in node 1280 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000988142, limit = 0.001, normalization = 0.000196358, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.023115, limit = 0.001, normalization = 1.03081, conv = false ---[precice]  iteration: 6 of 100, time-window: 3700, time: 0.0003699 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3700 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.699000e-04 actual step time=3.700000e-04 actual total time=3.700000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001760 time avg. forc= 0.000038 largest residual force= 0.001779 in node 1313 and dof 3 largest increment of disp= 6.934910e-06 largest correction to disp= 5.355560e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001761 time avg. forc= 0.000038 largest residual force= 0.000330 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 5.399378e-07 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001761 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 1.619315e-08 in node 1280 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000433439, limit = 0.001, normalization = 0.000196366, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00472013, limit = 0.001, normalization = 1.03363, conv = false ---[precice]  iteration: 7 of 100, time-window: 3700, time: 0.0003699 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3700 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.699000e-04 actual step time=3.700000e-04 actual total time=3.700000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001760 time avg. forc= 0.000038 largest residual force= 0.001779 in node 1313 and dof 3 largest increment of disp= 6.934910e-06 largest correction to disp= 5.353617e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001761 time avg. forc= 0.000038 largest residual force= 0.000330 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 5.399526e-07 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001761 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 1.619574e-08 in node 1280 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000163476, limit = 0.001, normalization = 0.000196367, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00371911, limit = 0.001, normalization = 1.0336, conv = false ---[precice]  iteration: 8 of 100, time-window: 3700, time: 0.0003699 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3700 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.699000e-04 actual step time=3.700000e-04 actual total time=3.700000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001760 time avg. forc= 0.000038 largest residual force= 0.001779 in node 1313 and dof 3 largest increment of disp= 6.934910e-06 largest correction to disp= 5.353416e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001761 time avg. forc= 0.000038 largest residual force= 0.000330 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 5.400115e-07 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001761 time avg. forc= 0.000038 largest residual force= 0.000000 in node 1279 and dof 2 largest increment of disp= 6.934910e-06 largest correction to disp= 1.619907e-08 in node 1280 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000147367, limit = 0.001, normalization = 0.000196368, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000133992, limit = 0.001, normalization = 1.03425, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3701, time: 0.00037 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint initial energy (at start of step) = 0.000000e+00 since start of the step: external work = 1.121953e-05 work performed by the damping forces = 0.000000e+00 netto work = 1.121953e-05 actual energy: internal energy = 4.353020e-06 kinetic energy = 2.131119e-06 elastic contact energy = 0.000000e+00 energy lost due to friction = 0.000000e+00 total energy = 6.484139e-06 energy increase = 6.484139e-06 energy balance (absolute) = -4.735389e-06 energy balance (relative) = 137774.300395 % Using up to 28 cpu(s) for the stress calculation. Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3701 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.700000e-04 actual step time=3.701000e-04 actual total time=3.701000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001650 time avg. forc= 0.000039 largest residual force= 0.000816 in node 1098 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 1.266742e-05 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001650 time avg. forc= 0.000039 largest residual force= 0.000025 in node 1140 and dof 2 largest increment of disp= 1.511933e-05 largest correction to disp= 1.529208e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001650 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 1.355122e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.246898, limit = 0.001, normalization = 0.0001935, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.54633, limit = 0.001, normalization = 1.79093, conv = false ---[precice]  iteration: 2 of 100, time-window: 3701, time: 0.00037 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3701 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.700000e-04 actual step time=3.701000e-04 actual total time=3.701000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001588 time avg. forc= 0.000039 largest residual force= 0.000731 in node 1098 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 3.807110e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001588 time avg. forc= 0.000039 largest residual force= 0.000022 in node 1140 and dof 2 largest increment of disp= 1.511933e-05 largest correction to disp= 1.393496e-07 in node 993 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001588 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 1.123671e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0836253, limit = 0.001, normalization = 0.000193724, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.749635, limit = 0.001, normalization = 1.68719, conv = false ---[precice]  iteration: 3 of 100, time-window: 3701, time: 0.00037 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3701 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.700000e-04 actual step time=3.701000e-04 actual total time=3.701000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000725 in node 1098 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 3.108653e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000022 in node 1140 and dof 2 largest increment of disp= 1.511933e-05 largest correction to disp= 1.383999e-07 in node 1119 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 1.117506e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0164752, limit = 0.001, normalization = 0.000193984, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0957319, limit = 0.001, normalization = 1.60756, conv = false ---[precice]  iteration: 4 of 100, time-window: 3701, time: 0.00037 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3701 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.700000e-04 actual step time=3.701000e-04 actual total time=3.701000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000718 in node 1098 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 3.194932e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000022 in node 1140 and dof 2 largest increment of disp= 1.511933e-05 largest correction to disp= 1.332452e-07 in node 1119 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 1.093870e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00536556, limit = 0.001, normalization = 0.000193932, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0553577, limit = 0.001, normalization = 1.56982, conv = false ---[precice]  iteration: 5 of 100, time-window: 3701, time: 0.00037 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3701 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.700000e-04 actual step time=3.701000e-04 actual total time=3.701000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000720 in node 1098 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 3.198326e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000022 in node 1140 and dof 2 largest increment of disp= 1.511933e-05 largest correction to disp= 1.347293e-07 in node 1119 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 1.103834e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00328921, limit = 0.001, normalization = 0.000193917, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00693055, limit = 0.001, normalization = 1.5705, conv = false ---[precice]  iteration: 6 of 100, time-window: 3701, time: 0.00037 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3701 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.700000e-04 actual step time=3.701000e-04 actual total time=3.701000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000721 in node 1098 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 3.201013e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000022 in node 1140 and dof 2 largest increment of disp= 1.511933e-05 largest correction to disp= 1.348911e-07 in node 1119 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 1.105317e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00098707, limit = 0.001, normalization = 0.000193926, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.012356, limit = 0.001, normalization = 1.57151, conv = false ---[precice]  iteration: 7 of 100, time-window: 3701, time: 0.00037 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3701 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.700000e-04 actual step time=3.701000e-04 actual total time=3.701000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000720 in node 1098 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 3.220544e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000022 in node 1140 and dof 2 largest increment of disp= 1.511933e-05 largest correction to disp= 1.346348e-07 in node 1119 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1878 and dof 2 largest increment of disp= 1.511933e-05 largest correction to disp= 1.102960e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000444309, limit = 0.001, normalization = 0.000193928, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00301568, limit = 0.001, normalization = 1.57168, conv = false ---[precice]  iteration: 8 of 100, time-window: 3701, time: 0.00037 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3701 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.700000e-04 actual step time=3.701000e-04 actual total time=3.701000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000720 in node 1098 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 3.223767e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000022 in node 1140 and dof 2 largest increment of disp= 1.511933e-05 largest correction to disp= 1.346212e-07 in node 1119 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 1.102766e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000188613, limit = 0.001, normalization = 0.000193928, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00194493, limit = 0.001, normalization = 1.57158, conv = false ---[precice]  iteration: 9 of 100, time-window: 3701, time: 0.00037 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3701 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.700000e-04 actual step time=3.701000e-04 actual total time=3.701000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000720 in node 1098 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 3.223101e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000022 in node 1140 and dof 2 largest increment of disp= 1.511933e-05 largest correction to disp= 1.346465e-07 in node 1119 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001585 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.511933e-05 largest correction to disp= 1.102952e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 3.06463e-05, limit = 0.001, normalization = 0.000193929, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000361232, limit = 0.001, normalization = 1.57155, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3702, time: 0.0003701 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3702 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.701000e-04 actual step time=3.702000e-04 actual total time=3.702000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001318 time avg. forc= 0.000039 largest residual force= 0.000753 in node 1384 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 1.090510e-05 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001317 time avg. forc= 0.000039 largest residual force= 0.000011 in node 1186 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 1.014514e-07 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001317 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 5.714119e-10 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.205264, limit = 0.001, normalization = 0.000198009, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.40051, limit = 0.001, normalization = 0.664533, conv = false ---[precice]  iteration: 2 of 100, time-window: 3702, time: 0.0003701 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3702 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.701000e-04 actual step time=3.702000e-04 actual total time=3.702000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001331 time avg. forc= 0.000039 largest residual force= 0.000569 in node 1186 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 7.672421e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001331 time avg. forc= 0.000039 largest residual force= 0.000010 in node 1186 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 1.091807e-07 in node 1288 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001331 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 5.462749e-10 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0643584, limit = 0.001, normalization = 0.00020247, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.837772, limit = 0.001, normalization = 2.32607, conv = false ---[precice]  iteration: 3 of 100, time-window: 3702, time: 0.0003701 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3702 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.701000e-04 actual step time=3.702000e-04 actual total time=3.702000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001330 time avg. forc= 0.000039 largest residual force= 0.000574 in node 1186 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 7.706428e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001330 time avg. forc= 0.000039 largest residual force= 0.000010 in node 1186 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 1.048421e-07 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001330 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 5.275531e-10 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0111263, limit = 0.001, normalization = 0.000202527, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.246549, limit = 0.001, normalization = 1.95277, conv = false ---[precice]  iteration: 4 of 100, time-window: 3702, time: 0.0003701 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3702 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.701000e-04 actual step time=3.702000e-04 actual total time=3.702000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001331 time avg. forc= 0.000039 largest residual force= 0.000572 in node 1186 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 7.541096e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001330 time avg. forc= 0.000039 largest residual force= 0.000010 in node 1186 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 9.982001e-08 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001330 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 5.284101e-10 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00724138, limit = 0.001, normalization = 0.000202648, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00641902, limit = 0.001, normalization = 1.90951, conv = false ---[precice]  iteration: 5 of 100, time-window: 3702, time: 0.0003701 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3702 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.701000e-04 actual step time=3.702000e-04 actual total time=3.702000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001331 time avg. forc= 0.000039 largest residual force= 0.000571 in node 1186 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 7.518133e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001330 time avg. forc= 0.000039 largest residual force= 0.000010 in node 1186 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 9.977085e-08 in node 1232 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001330 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 5.283939e-10 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00169306, limit = 0.001, normalization = 0.000202689, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0203854, limit = 0.001, normalization = 1.91157, conv = false ---[precice]  iteration: 6 of 100, time-window: 3702, time: 0.0003701 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3702 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.701000e-04 actual step time=3.702000e-04 actual total time=3.702000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001331 time avg. forc= 0.000039 largest residual force= 0.000572 in node 1186 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 7.498909e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001330 time avg. forc= 0.000039 largest residual force= 0.000010 in node 1186 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 9.985413e-08 in node 1232 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001330 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 5.293248e-10 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000760311, limit = 0.001, normalization = 0.000202718, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0035727, limit = 0.001, normalization = 1.91222, conv = false ---[precice]  iteration: 7 of 100, time-window: 3702, time: 0.0003701 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3702 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.701000e-04 actual step time=3.702000e-04 actual total time=3.702000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001331 time avg. forc= 0.000039 largest residual force= 0.000572 in node 1186 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 7.497671e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001330 time avg. forc= 0.000039 largest residual force= 0.000010 in node 1186 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 9.984430e-08 in node 1232 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001330 time avg. forc= 0.000039 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.592412e-05 largest correction to disp= 5.292522e-10 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000325205, limit = 0.001, normalization = 0.000202719, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000965548, limit = 0.001, normalization = 1.9121, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3703, time: 0.0003702 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3703 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.702000e-04 actual step time=3.703000e-04 actual total time=3.703000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002069 time avg. forc= 0.000040 largest residual force= 0.002002 in node 1213 and dof 3 largest increment of disp= 1.187554e-05 largest correction to disp= 8.456824e-06 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002070 time avg. forc= 0.000040 largest residual force= 0.000382 in node 1255 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 5.198277e-07 in node 1213 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002070 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 1.989737e-08 in node 1213 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.207041, limit = 0.001, normalization = 0.000199605, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.09664, limit = 0.001, normalization = 1.69332, conv = false ---[precice]  iteration: 2 of 100, time-window: 3703, time: 0.0003702 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3703 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.702000e-04 actual step time=3.703000e-04 actual total time=3.703000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.001549 in node 1002 and dof 1 largest increment of disp= 1.187554e-05 largest correction to disp= 3.847689e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002002 time avg. forc= 0.000040 largest residual force= 0.000243 in node 1255 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 4.907874e-07 in node 1107 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002002 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 1.592788e-08 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0519188, limit = 0.001, normalization = 0.00019307, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.596142, limit = 0.001, normalization = 1.81858, conv = false ---[precice]  iteration: 3 of 100, time-window: 3703, time: 0.0003702 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3703 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.702000e-04 actual step time=3.703000e-04 actual total time=3.703000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.001585 in node 1002 and dof 1 largest increment of disp= 1.187554e-05 largest correction to disp= 3.934261e-06 in node 1081 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.000239 in node 1255 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 4.932382e-07 in node 1107 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1149 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 1.661067e-08 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0109323, limit = 0.001, normalization = 0.000193118, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.297353, limit = 0.001, normalization = 0.823412, conv = false ---[precice]  iteration: 4 of 100, time-window: 3703, time: 0.0003702 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3703 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.702000e-04 actual step time=3.703000e-04 actual total time=3.703000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.001581 in node 1002 and dof 1 largest increment of disp= 1.187554e-05 largest correction to disp= 3.825479e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.000239 in node 1255 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 4.932257e-07 in node 1107 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1149 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 1.655833e-08 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00667386, limit = 0.001, normalization = 0.000193113, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.049493, limit = 0.001, normalization = 0.722778, conv = false ---[precice]  iteration: 5 of 100, time-window: 3703, time: 0.0003702 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3703 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.702000e-04 actual step time=3.703000e-04 actual total time=3.703000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.001582 in node 1002 and dof 1 largest increment of disp= 1.187554e-05 largest correction to disp= 3.821767e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.000240 in node 1255 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 4.938441e-07 in node 1107 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002002 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1149 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 1.661304e-08 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00232623, limit = 0.001, normalization = 0.000193103, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0196708, limit = 0.001, normalization = 0.742549, conv = false ---[precice]  iteration: 6 of 100, time-window: 3703, time: 0.0003702 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3703 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.702000e-04 actual step time=3.703000e-04 actual total time=3.703000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.001582 in node 1002 and dof 1 largest increment of disp= 1.187554e-05 largest correction to disp= 3.819566e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.000240 in node 1255 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 4.938036e-07 in node 1107 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002002 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1149 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 1.661202e-08 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000892191, limit = 0.001, normalization = 0.000193099, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00275167, limit = 0.001, normalization = 0.744176, conv = false ---[precice]  iteration: 7 of 100, time-window: 3703, time: 0.0003702 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3703 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.702000e-04 actual step time=3.703000e-04 actual total time=3.703000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.001582 in node 1002 and dof 1 largest increment of disp= 1.187554e-05 largest correction to disp= 3.818197e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.000240 in node 1255 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 4.940710e-07 in node 1107 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002002 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1149 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 1.662650e-08 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00024417, limit = 0.001, normalization = 0.000193101, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00294074, limit = 0.001, normalization = 0.743009, conv = false ---[precice]  iteration: 8 of 100, time-window: 3703, time: 0.0003702 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3703 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.702000e-04 actual step time=3.703000e-04 actual total time=3.703000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.001582 in node 1002 and dof 1 largest increment of disp= 1.187554e-05 largest correction to disp= 3.818400e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.000240 in node 1255 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 4.941259e-07 in node 1107 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002002 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1149 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 1.662763e-08 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 7.84633e-05, limit = 0.001, normalization = 0.000193101, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00350487, limit = 0.001, normalization = 0.742872, conv = false ---[precice]  iteration: 9 of 100, time-window: 3703, time: 0.0003702 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3703 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.702000e-04 actual step time=3.703000e-04 actual total time=3.703000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.001582 in node 1002 and dof 1 largest increment of disp= 1.187554e-05 largest correction to disp= 3.818587e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.000240 in node 1255 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 4.941121e-07 in node 1107 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002002 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1149 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 1.662687e-08 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.33796e-05, limit = 0.001, normalization = 0.000193101, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00180206, limit = 0.001, normalization = 0.741745, conv = false ---[precice]  iteration: 10 of 100, time-window: 3703, time: 0.0003702 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3703 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.702000e-04 actual step time=3.703000e-04 actual total time=3.703000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.001582 in node 1002 and dof 1 largest increment of disp= 1.187554e-05 largest correction to disp= 3.818474e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002001 time avg. forc= 0.000040 largest residual force= 0.000240 in node 1255 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 4.941230e-07 in node 1107 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002002 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1149 and dof 2 largest increment of disp= 1.187554e-05 largest correction to disp= 1.662728e-08 in node 1080 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 1.02156e-05, limit = 0.001, normalization = 0.000193101, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000215088, limit = 0.001, normalization = 0.741837, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3704, time: 0.0003703 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3704 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.703000e-04 actual step time=3.704000e-04 actual total time=3.704000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001101 time avg. forc= 0.000040 largest residual force= 0.001100 in node 1384 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 1.472027e-05 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001102 time avg. forc= 0.000040 largest residual force= 0.000004 in node 1469 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 1.222387e-07 in node 1598 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001102 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 2.956791e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.260736, limit = 0.001, normalization = 0.000193961, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.10117, limit = 0.001, normalization = 1.46894, conv = false ---[precice]  iteration: 2 of 100, time-window: 3704, time: 0.0003703 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3704 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.703000e-04 actual step time=3.704000e-04 actual total time=3.704000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001107 time avg. forc= 0.000040 largest residual force= 0.000665 in node 1384 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 6.585777e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001107 time avg. forc= 0.000040 largest residual force= 0.000005 in node 1469 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 1.386046e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001107 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1404 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 3.807083e-10 in node 1405 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0303381, limit = 0.001, normalization = 0.000201608, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.242591, limit = 0.001, normalization = 2.41438, conv = false ---[precice]  iteration: 3 of 100, time-window: 3704, time: 0.0003703 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3704 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.703000e-04 actual step time=3.704000e-04 actual total time=3.704000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000663 in node 1384 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 6.736225e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000003 in node 1469 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 1.028373e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 2.674494e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00988037, limit = 0.001, normalization = 0.000201754, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.104885, limit = 0.001, normalization = 2.24031, conv = false ---[precice]  iteration: 4 of 100, time-window: 3704, time: 0.0003703 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3704 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.703000e-04 actual step time=3.704000e-04 actual total time=3.704000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001116 time avg. forc= 0.000040 largest residual force= 0.020215 in node 1641 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 6.539049e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001107 time avg. forc= 0.000040 largest residual force= 0.002095 in node 1662 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 5.843929e-06 in node 1663 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000003 in node 1662 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 1.075750e-07 in node 1535 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1662 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 3.481057e-10 in node 1535 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00237743, limit = 0.001, normalization = 0.000201813, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0134506, limit = 0.001, normalization = 2.25552, conv = false ---[precice]  iteration: 5 of 100, time-window: 3704, time: 0.0003703 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3704 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.703000e-04 actual step time=3.704000e-04 actual total time=3.704000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000642 in node 1384 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 6.478498e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001107 time avg. forc= 0.000040 largest residual force= 0.000004 in node 1469 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 1.085500e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 2.648337e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0018542, limit = 0.001, normalization = 0.000201838, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0151801, limit = 0.001, normalization = 2.25029, conv = false ---[precice]  iteration: 6 of 100, time-window: 3704, time: 0.0003703 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3704 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.703000e-04 actual step time=3.704000e-04 actual total time=3.704000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000642 in node 1384 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 6.478457e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001107 time avg. forc= 0.000040 largest residual force= 0.000004 in node 1469 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 1.090203e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001107 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 2.659352e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000658062, limit = 0.001, normalization = 0.000201838, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.013288, limit = 0.001, normalization = 2.24786, conv = false ---[precice]  iteration: 7 of 100, time-window: 3704, time: 0.0003703 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3704 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.703000e-04 actual step time=3.704000e-04 actual total time=3.704000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000643 in node 1384 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 6.483243e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000004 in node 1469 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 1.093836e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 2.666830e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000360938, limit = 0.001, normalization = 0.000201844, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00212683, limit = 0.001, normalization = 2.24841, conv = false ---[precice]  iteration: 8 of 100, time-window: 3704, time: 0.0003703 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3704 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.703000e-04 actual step time=3.704000e-04 actual total time=3.704000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000643 in node 1384 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 6.488579e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000004 in node 1469 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 1.093744e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 2.665632e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000175141, limit = 0.001, normalization = 0.000201842, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00102405, limit = 0.001, normalization = 2.24848, conv = false ---[precice]  iteration: 9 of 100, time-window: 3704, time: 0.0003703 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3704 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.703000e-04 actual step time=3.704000e-04 actual total time=3.704000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000643 in node 1384 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 6.488390e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000004 in node 1469 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 1.093642e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001108 time avg. forc= 0.000040 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.067353e-05 largest correction to disp= 2.665217e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000100914, limit = 0.001, normalization = 0.000201843, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000626222, limit = 0.001, normalization = 2.24861, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3705, time: 0.0003704 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3705 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.704000e-04 actual step time=3.705000e-04 actual total time=3.705000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001932 time avg. forc= 0.000041 largest residual force= 0.004312 in node 1313 and dof 3 largest increment of disp= 7.629494e-06 largest correction to disp= 4.470039e-06 in node 1699 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001936 time avg. forc= 0.000041 largest residual force= 0.001243 in node 1281 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.189446e-06 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001938 time avg. forc= 0.000041 largest residual force= 0.000020 in node 1281 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.598597e-07 in node 1280 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001938 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1281 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 5.284353e-09 in node 1280 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.179035, limit = 0.001, normalization = 0.000201991, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 3.0768, limit = 0.001, normalization = 1.02288, conv = false ---[precice]  iteration: 2 of 100, time-window: 3705, time: 0.0003704 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3705 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.704000e-04 actual step time=3.705000e-04 actual total time=3.705000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001896 time avg. forc= 0.000041 largest residual force= 0.005209 in node 1313 and dof 3 largest increment of disp= 7.629494e-06 largest correction to disp= 6.284042e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001901 time avg. forc= 0.000041 largest residual force= 0.002033 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.439952e-06 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001904 time avg. forc= 0.000041 largest residual force= 0.000064 in node 1279 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 2.549474e-07 in node 1333 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001904 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.075183e-08 in node 1333 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0259584, limit = 0.001, normalization = 0.000198191, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.482228, limit = 0.001, normalization = 1.26677, conv = false ---[precice]  iteration: 3 of 100, time-window: 3705, time: 0.0003704 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3705 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.704000e-04 actual step time=3.705000e-04 actual total time=3.705000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001895 time avg. forc= 0.000041 largest residual force= 0.005356 in node 1313 and dof 3 largest increment of disp= 7.629494e-06 largest correction to disp= 6.079466e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001900 time avg. forc= 0.000041 largest residual force= 0.001914 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.449139e-06 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001902 time avg. forc= 0.000041 largest residual force= 0.000060 in node 1279 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 2.475327e-07 in node 1280 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001902 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.045277e-08 in node 1333 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00894619, limit = 0.001, normalization = 0.000198106, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0441687, limit = 0.001, normalization = 1.2074, conv = false ---[precice]  iteration: 4 of 100, time-window: 3705, time: 0.0003704 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3705 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.704000e-04 actual step time=3.705000e-04 actual total time=3.705000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001895 time avg. forc= 0.000041 largest residual force= 0.005382 in node 1313 and dof 3 largest increment of disp= 7.629494e-06 largest correction to disp= 5.932838e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001900 time avg. forc= 0.000041 largest residual force= 0.001915 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.452353e-06 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001903 time avg. forc= 0.000041 largest residual force= 0.000061 in node 1279 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 2.490217e-07 in node 1280 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001903 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.055308e-08 in node 1333 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00154081, limit = 0.001, normalization = 0.000198198, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0523332, limit = 0.001, normalization = 1.159, conv = false ---[precice]  iteration: 5 of 100, time-window: 3705, time: 0.0003704 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3705 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.704000e-04 actual step time=3.705000e-04 actual total time=3.705000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001895 time avg. forc= 0.000041 largest residual force= 0.005391 in node 1313 and dof 3 largest increment of disp= 7.629494e-06 largest correction to disp= 5.924943e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001901 time avg. forc= 0.000041 largest residual force= 0.001922 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.455327e-06 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001903 time avg. forc= 0.000041 largest residual force= 0.000061 in node 1279 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 2.504293e-07 in node 1280 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001903 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.064594e-08 in node 1333 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000988952, limit = 0.001, normalization = 0.000198206, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00391423, limit = 0.001, normalization = 1.17073, conv = false ---[precice]  iteration: 6 of 100, time-window: 3705, time: 0.0003704 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3705 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.704000e-04 actual step time=3.705000e-04 actual total time=3.705000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001895 time avg. forc= 0.000041 largest residual force= 0.005391 in node 1313 and dof 3 largest increment of disp= 7.629494e-06 largest correction to disp= 5.918105e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001900 time avg. forc= 0.000041 largest residual force= 0.001922 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.455251e-06 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001903 time avg. forc= 0.000041 largest residual force= 0.000061 in node 1279 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 2.504437e-07 in node 1280 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001903 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.064704e-08 in node 1333 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000501876, limit = 0.001, normalization = 0.000198209, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00535923, limit = 0.001, normalization = 1.17177, conv = false ---[precice]  iteration: 7 of 100, time-window: 3705, time: 0.0003704 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3705 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.704000e-04 actual step time=3.705000e-04 actual total time=3.705000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001895 time avg. forc= 0.000041 largest residual force= 0.005389 in node 1313 and dof 3 largest increment of disp= 7.629494e-06 largest correction to disp= 5.918699e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001900 time avg. forc= 0.000041 largest residual force= 0.001921 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.455036e-06 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001903 time avg. forc= 0.000041 largest residual force= 0.000061 in node 1279 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 2.502429e-07 in node 1280 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001903 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.063317e-08 in node 1333 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000238306, limit = 0.001, normalization = 0.000198206, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00417593, limit = 0.001, normalization = 1.17092, conv = false ---[precice]  iteration: 8 of 100, time-window: 3705, time: 0.0003704 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3705 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.704000e-04 actual step time=3.705000e-04 actual total time=3.705000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001895 time avg. forc= 0.000041 largest residual force= 0.005390 in node 1313 and dof 3 largest increment of disp= 7.629494e-06 largest correction to disp= 5.918159e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001900 time avg. forc= 0.000041 largest residual force= 0.001921 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.455144e-06 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001903 time avg. forc= 0.000041 largest residual force= 0.000061 in node 1279 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 2.503197e-07 in node 1280 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001903 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.063800e-08 in node 1333 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000150752, limit = 0.001, normalization = 0.000198207, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00256302, limit = 0.001, normalization = 1.17093, conv = false ---[precice]  iteration: 9 of 100, time-window: 3705, time: 0.0003704 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3705 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.704000e-04 actual step time=3.705000e-04 actual total time=3.705000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001895 time avg. forc= 0.000041 largest residual force= 0.005391 in node 1313 and dof 3 largest increment of disp= 7.629494e-06 largest correction to disp= 5.918338e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001900 time avg. forc= 0.000041 largest residual force= 0.001922 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.455371e-06 in node 1312 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001903 time avg. forc= 0.000041 largest residual force= 0.000061 in node 1279 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 2.504801e-07 in node 1280 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001903 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 7.629494e-06 largest correction to disp= 1.064862e-08 in node 1333 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.22002e-05, limit = 0.001, normalization = 0.000198208, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000474463, limit = 0.001, normalization = 1.17059, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3706, time: 0.0003705 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3706 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.705000e-04 actual step time=3.706000e-04 actual total time=3.706000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001820 time avg. forc= 0.000041 largest residual force= 0.010490 in node 1656 and dof 2 largest increment of disp= 1.626252e-05 largest correction to disp= 1.370257e-05 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001820 time avg. forc= 0.000041 largest residual force= 0.000144 in node 1677 and dof 2 largest increment of disp= 1.626252e-05 largest correction to disp= 1.773365e-06 in node 1656 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001820 time avg. forc= 0.000041 largest residual force= 0.000000 in node 2097 and dof 2 largest increment of disp= 1.626252e-05 largest correction to disp= 4.707302e-09 in node 2096 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.26684, limit = 0.001, normalization = 0.000194696, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.57125, limit = 0.001, normalization = 1.95043, conv = false ---[precice]  iteration: 2 of 100, time-window: 3706, time: 0.0003705 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3706 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.705000e-04 actual step time=3.706000e-04 actual total time=3.706000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001752 time avg. forc= 0.000041 largest residual force= 0.001161 in node 1098 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.284338e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001752 time avg. forc= 0.000041 largest residual force= 0.000062 in node 1140 and dof 2 largest increment of disp= 1.626252e-05 largest correction to disp= 2.249530e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001752 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.272673e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0532841, limit = 0.001, normalization = 0.000194725, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.849677, limit = 0.001, normalization = 1.85898, conv = false ---[precice]  iteration: 3 of 100, time-window: 3706, time: 0.0003705 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3706 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.705000e-04 actual step time=3.706000e-04 actual total time=3.706000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.001149 in node 1098 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.411962e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.000061 in node 1140 and dof 2 largest increment of disp= 1.626252e-05 largest correction to disp= 2.238058e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.212587e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0168729, limit = 0.001, normalization = 0.000194827, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0177399, limit = 0.001, normalization = 1.6908, conv = false ---[precice]  iteration: 4 of 100, time-window: 3706, time: 0.0003705 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3706 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.705000e-04 actual step time=3.706000e-04 actual total time=3.706000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001749 time avg. forc= 0.000041 largest residual force= 0.001145 in node 1098 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.524127e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001749 time avg. forc= 0.000041 largest residual force= 0.000061 in node 1140 and dof 2 largest increment of disp= 1.626252e-05 largest correction to disp= 2.188997e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001749 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.175210e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00567916, limit = 0.001, normalization = 0.000194791, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.105485, limit = 0.001, normalization = 1.67883, conv = false ---[precice]  iteration: 5 of 100, time-window: 3706, time: 0.0003705 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3706 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.705000e-04 actual step time=3.706000e-04 actual total time=3.706000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.001145 in node 1098 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.645010e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.000061 in node 1140 and dof 2 largest increment of disp= 1.626252e-05 largest correction to disp= 2.195331e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001749 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.177135e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00301933, limit = 0.001, normalization = 0.000194794, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0404451, limit = 0.001, normalization = 1.67895, conv = false ---[precice]  iteration: 6 of 100, time-window: 3706, time: 0.0003705 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3706 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.705000e-04 actual step time=3.706000e-04 actual total time=3.706000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.001144 in node 1098 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.625498e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.000060 in node 1140 and dof 2 largest increment of disp= 1.626252e-05 largest correction to disp= 2.193908e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.171928e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000755533, limit = 0.001, normalization = 0.000194809, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00734205, limit = 0.001, normalization = 1.67962, conv = false ---[precice]  iteration: 7 of 100, time-window: 3706, time: 0.0003705 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3706 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.705000e-04 actual step time=3.706000e-04 actual total time=3.706000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.001144 in node 1098 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.621519e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.000060 in node 1140 and dof 2 largest increment of disp= 1.626252e-05 largest correction to disp= 2.192408e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.169996e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000443622, limit = 0.001, normalization = 0.000194809, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00102042, limit = 0.001, normalization = 1.67963, conv = false ---[precice]  iteration: 8 of 100, time-window: 3706, time: 0.0003705 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3706 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.705000e-04 actual step time=3.706000e-04 actual total time=3.706000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.001144 in node 1098 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.618481e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.000060 in node 1140 and dof 2 largest increment of disp= 1.626252e-05 largest correction to disp= 2.192191e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.169726e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000167908, limit = 0.001, normalization = 0.000194811, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00159655, limit = 0.001, normalization = 1.67965, conv = false ---[precice]  iteration: 9 of 100, time-window: 3706, time: 0.0003705 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3706 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.705000e-04 actual step time=3.706000e-04 actual total time=3.706000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.001144 in node 1098 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.618683e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.000060 in node 1140 and dof 2 largest increment of disp= 1.626252e-05 largest correction to disp= 2.192420e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.626252e-05 largest correction to disp= 3.169946e-09 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.12781e-05, limit = 0.001, normalization = 0.000194811, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000306944, limit = 0.001, normalization = 1.67975, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3707, time: 0.0003706 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3707 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.706000e-04 actual step time=3.707000e-04 actual total time=3.707000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001412 time avg. forc= 0.000041 largest residual force= 0.000991 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.207034e-05 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001412 time avg. forc= 0.000041 largest residual force= 0.000024 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.376305e-07 in node 1232 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001412 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.189843e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.224605, limit = 0.001, normalization = 0.000199573, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.34246, limit = 0.001, normalization = 0.711565, conv = false ---[precice]  iteration: 2 of 100, time-window: 3707, time: 0.0003706 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3707 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.706000e-04 actual step time=3.707000e-04 actual total time=3.707000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001428 time avg. forc= 0.000041 largest residual force= 0.000794 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 7.683800e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001428 time avg. forc= 0.000041 largest residual force= 0.000021 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.448607e-07 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001428 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.127722e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0307044, limit = 0.001, normalization = 0.000205582, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.652434, limit = 0.001, normalization = 2.35622, conv = false ---[precice]  iteration: 3 of 100, time-window: 3707, time: 0.0003706 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3707 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.706000e-04 actual step time=3.707000e-04 actual total time=3.707000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001428 time avg. forc= 0.000041 largest residual force= 0.000794 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 8.383477e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001427 time avg. forc= 0.000041 largest residual force= 0.000022 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.400004e-07 in node 1232 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001428 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.110669e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0107719, limit = 0.001, normalization = 0.000205194, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0453574, limit = 0.001, normalization = 2.1145, conv = false ---[precice]  iteration: 4 of 100, time-window: 3707, time: 0.0003706 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3707 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.706000e-04 actual step time=3.707000e-04 actual total time=3.707000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001428 time avg. forc= 0.000041 largest residual force= 0.000788 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 8.197061e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001427 time avg. forc= 0.000041 largest residual force= 0.000021 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.411594e-07 in node 1232 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001427 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.102698e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00678806, limit = 0.001, normalization = 0.000205323, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0409946, limit = 0.001, normalization = 2.10989, conv = false ---[precice]  iteration: 5 of 100, time-window: 3707, time: 0.0003706 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3707 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.706000e-04 actual step time=3.707000e-04 actual total time=3.707000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001428 time avg. forc= 0.000041 largest residual force= 0.000790 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 8.129764e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001428 time avg. forc= 0.000041 largest residual force= 0.000021 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.412669e-07 in node 1232 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001428 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.105468e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00286554, limit = 0.001, normalization = 0.000205413, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0304793, limit = 0.001, normalization = 2.11072, conv = false ---[precice]  iteration: 6 of 100, time-window: 3707, time: 0.0003706 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3707 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.706000e-04 actual step time=3.707000e-04 actual total time=3.707000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001428 time avg. forc= 0.000041 largest residual force= 0.000790 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 8.112042e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001428 time avg. forc= 0.000041 largest residual force= 0.000021 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.413443e-07 in node 1232 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001428 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.106039e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00095586, limit = 0.001, normalization = 0.000205439, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0189413, limit = 0.001, normalization = 2.11002, conv = false ---[precice]  iteration: 7 of 100, time-window: 3707, time: 0.0003706 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3707 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.706000e-04 actual step time=3.707000e-04 actual total time=3.707000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001428 time avg. forc= 0.000041 largest residual force= 0.000793 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 8.118396e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001427 time avg. forc= 0.000041 largest residual force= 0.000022 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.414349e-07 in node 1232 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001427 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 7.893902e-09 in node 1980 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000634414, limit = 0.001, normalization = 0.000205435, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00249145, limit = 0.001, normalization = 2.11039, conv = false ---[precice]  iteration: 8 of 100, time-window: 3707, time: 0.0003706 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3707 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.706000e-04 actual step time=3.707000e-04 actual total time=3.707000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001428 time avg. forc= 0.000041 largest residual force= 0.000793 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 8.132236e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001427 time avg. forc= 0.000041 largest residual force= 0.000022 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.414257e-07 in node 1232 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001427 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.108271e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000114616, limit = 0.001, normalization = 0.000205422, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00106904, limit = 0.001, normalization = 2.11033, conv = false ---[precice]  iteration: 9 of 100, time-window: 3707, time: 0.0003706 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3707 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.706000e-04 actual step time=3.707000e-04 actual total time=3.707000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001428 time avg. forc= 0.000041 largest residual force= 0.000793 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 8.130119e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001427 time avg. forc= 0.000041 largest residual force= 0.000022 in node 1186 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.414197e-07 in node 1232 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001427 time avg. forc= 0.000041 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.764335e-05 largest correction to disp= 1.108020e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 8.71006e-05, limit = 0.001, normalization = 0.000205424, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000824777, limit = 0.001, normalization = 2.11023, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3708, time: 0.0003707 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3708 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.707000e-04 actual step time=3.708000e-04 actual total time=3.708000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.051289 time avg. forc= 0.000056 largest residual force= 48.269159 in node 1213 and dof 3 largest increment of disp= 5.829478e-05 largest correction to disp= 5.829478e-05 in node 1213 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.016613 time avg. forc= 0.000046 largest residual force= 13.680275 in node 1213 and dof 3 largest increment of disp= 5.829478e-05 largest correction to disp= 2.672947e-05 in node 1213 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.006697 time avg. forc= 0.000043 largest residual force= 3.889763 in node 1213 and dof 3 largest increment of disp= 5.829478e-05 largest correction to disp= 1.585843e-05 in node 1213 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.003718 time avg. forc= 0.000042 largest residual force= 1.173674 in node 1212 and dof 3 largest increment of disp= 5.829478e-05 largest correction to disp= 1.309905e-05 in node 1080 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002689 time avg. forc= 0.000042 largest residual force= 0.376344 in node 1213 and dof 3 largest increment of disp= 5.829478e-05 largest correction to disp= 1.125704e-05 in node 1187 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002334 time avg. forc= 0.000042 largest residual force= 0.125858 in node 1213 and dof 3 largest increment of disp= 5.829478e-05 largest correction to disp= 7.011012e-06 in node 1254 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002240 time avg. forc= 0.000042 largest residual force= 0.047374 in node 1233 and dof 3 largest increment of disp= 5.829478e-05 largest correction to disp= 4.280826e-06 in node 1254 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002233 time avg. forc= 0.000042 largest residual force= 0.018256 in node 1233 and dof 3 largest increment of disp= 5.829478e-05 largest correction to disp= 2.989323e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 20 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002247 time avg. forc= 0.000042 largest residual force= 0.007785 in node 1213 and dof 3 largest increment of disp= 5.829478e-05 largest correction to disp= 2.173975e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 22 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002255 time avg. forc= 0.000042 largest residual force= 0.003515 in node 1184 and dof 2 largest increment of disp= 5.829478e-05 largest correction to disp= 1.387706e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 23 no convergence iteration 11 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002258 time avg. forc= 0.000042 largest residual force= 0.001025 in node 1184 and dof 2 largest increment of disp= 5.829478e-05 largest correction to disp= 6.135765e-07 in node 1212 and dof 1 estimated number of iterations till convergence = 18 no convergence iteration 12 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002258 time avg. forc= 0.000042 largest residual force= 0.000055 in node 1184 and dof 2 largest increment of disp= 5.829478e-05 largest correction to disp= 1.559201e-07 in node 1213 and dof 3 estimated number of iterations till convergence = 14 no convergence iteration 13 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002258 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1184 and dof 2 largest increment of disp= 5.829478e-05 largest correction to disp= 8.377657e-09 in node 1213 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.222117, limit = 0.001, normalization = 0.000201881, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.1302, limit = 0.001, normalization = 1.81783, conv = false ---[precice]  iteration: 2 of 100, time-window: 3708, time: 0.0003707 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3708 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.707000e-04 actual step time=3.708000e-04 actual total time=3.708000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.025615 time avg. forc= 0.000048 largest residual force= 24.144223 in node 1213 and dof 3 largest increment of disp= 4.847286e-05 largest correction to disp= 4.847286e-05 in node 1213 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.008966 time avg. forc= 0.000044 largest residual force= 6.711048 in node 1213 and dof 3 largest increment of disp= 4.847286e-05 largest correction to disp= 2.261872e-05 in node 1213 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.004319 time avg. forc= 0.000043 largest residual force= 1.899409 in node 1213 and dof 3 largest increment of disp= 4.847286e-05 largest correction to disp= 1.167351e-05 in node 1213 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002852 time avg. forc= 0.000042 largest residual force= 0.585462 in node 1213 and dof 3 largest increment of disp= 4.847286e-05 largest correction to disp= 1.129367e-05 in node 1187 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002334 time avg. forc= 0.000042 largest residual force= 0.194329 in node 1213 and dof 3 largest increment of disp= 4.847286e-05 largest correction to disp= 8.503599e-06 in node 1187 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002183 time avg. forc= 0.000042 largest residual force= 0.068855 in node 1233 and dof 3 largest increment of disp= 4.847286e-05 largest correction to disp= 5.368909e-06 in node 1254 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002158 time avg. forc= 0.000042 largest residual force= 0.026125 in node 1233 and dof 3 largest increment of disp= 4.847286e-05 largest correction to disp= 3.451366e-06 in node 1212 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002169 time avg. forc= 0.000042 largest residual force= 0.010829 in node 1213 and dof 3 largest increment of disp= 4.847286e-05 largest correction to disp= 2.588162e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 21 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002179 time avg. forc= 0.000042 largest residual force= 0.004468 in node 1213 and dof 3 largest increment of disp= 4.847286e-05 largest correction to disp= 1.758538e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 21 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002183 time avg. forc= 0.000042 largest residual force= 0.001588 in node 1254 and dof 2 largest increment of disp= 4.847286e-05 largest correction to disp= 8.723874e-07 in node 1212 and dof 3 estimated number of iterations till convergence = 19 no convergence iteration 11 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002184 time avg. forc= 0.000042 largest residual force= 0.000140 in node 1254 and dof 2 largest increment of disp= 4.847286e-05 largest correction to disp= 2.650225e-07 in node 1213 and dof 3 estimated number of iterations till convergence = 14 no convergence iteration 12 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002184 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 4.847286e-05 largest correction to disp= 2.237070e-08 in node 1213 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0479336, limit = 0.001, normalization = 0.000194054, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.622567, limit = 0.001, normalization = 1.72007, conv = false ---[precice]  iteration: 3 of 100, time-window: 3708, time: 0.0003707 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3708 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.707000e-04 actual step time=3.708000e-04 actual total time=3.708000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.023149 time avg. forc= 0.000048 largest residual force= 21.294844 in node 1213 and dof 3 largest increment of disp= 4.623583e-05 largest correction to disp= 4.623583e-05 in node 1213 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.008239 time avg. forc= 0.000044 largest residual force= 5.896130 in node 1213 and dof 3 largest increment of disp= 4.623583e-05 largest correction to disp= 2.171794e-05 in node 1213 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.004091 time avg. forc= 0.000042 largest residual force= 1.668385 in node 1213 and dof 3 largest increment of disp= 4.623583e-05 largest correction to disp= 1.107515e-05 in node 1213 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002771 time avg. forc= 0.000042 largest residual force= 0.517681 in node 1213 and dof 3 largest increment of disp= 4.623583e-05 largest correction to disp= 1.077538e-05 in node 1187 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002307 time avg. forc= 0.000042 largest residual force= 0.172280 in node 1213 and dof 3 largest increment of disp= 4.623583e-05 largest correction to disp= 7.999470e-06 in node 1187 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002178 time avg. forc= 0.000042 largest residual force= 0.061566 in node 1233 and dof 3 largest increment of disp= 4.623583e-05 largest correction to disp= 5.013583e-06 in node 1254 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002159 time avg. forc= 0.000042 largest residual force= 0.023498 in node 1233 and dof 3 largest increment of disp= 4.623583e-05 largest correction to disp= 3.329837e-06 in node 1212 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002170 time avg. forc= 0.000042 largest residual force= 0.009863 in node 1213 and dof 3 largest increment of disp= 4.623583e-05 largest correction to disp= 2.485660e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 21 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002180 time avg. forc= 0.000042 largest residual force= 0.004129 in node 1254 and dof 2 largest increment of disp= 4.623583e-05 largest correction to disp= 1.651791e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 21 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002183 time avg. forc= 0.000042 largest residual force= 0.001337 in node 1254 and dof 2 largest increment of disp= 4.623583e-05 largest correction to disp= 7.701503e-07 in node 1212 and dof 3 estimated number of iterations till convergence = 18 no convergence iteration 11 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002184 time avg. forc= 0.000042 largest residual force= 0.000094 in node 1254 and dof 2 largest increment of disp= 4.623583e-05 largest correction to disp= 2.169519e-07 in node 1213 and dof 3 estimated number of iterations till convergence = 14 no convergence iteration 12 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002184 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 4.623583e-05 largest correction to disp= 1.489099e-08 in node 1213 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0118476, limit = 0.001, normalization = 0.00019416, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.606449, limit = 0.001, normalization = 0.822205, conv = false ---[precice]  iteration: 4 of 100, time-window: 3708, time: 0.0003707 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3708 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.707000e-04 actual step time=3.708000e-04 actual total time=3.708000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.024161 time avg. forc= 0.000048 largest residual force= 22.265230 in node 1213 and dof 3 largest increment of disp= 4.676761e-05 largest correction to disp= 4.676761e-05 in node 1213 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.008536 time avg. forc= 0.000044 largest residual force= 6.174114 in node 1213 and dof 3 largest increment of disp= 4.676761e-05 largest correction to disp= 2.197322e-05 in node 1213 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.004186 time avg. forc= 0.000043 largest residual force= 1.746882 in node 1213 and dof 3 largest increment of disp= 4.676761e-05 largest correction to disp= 1.129334e-05 in node 1213 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002805 time avg. forc= 0.000042 largest residual force= 0.540571 in node 1213 and dof 3 largest increment of disp= 4.676761e-05 largest correction to disp= 1.084128e-05 in node 1187 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002319 time avg. forc= 0.000042 largest residual force= 0.179735 in node 1213 and dof 3 largest increment of disp= 4.676761e-05 largest correction to disp= 8.158729e-06 in node 1187 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002180 time avg. forc= 0.000042 largest residual force= 0.064053 in node 1233 and dof 3 largest increment of disp= 4.676761e-05 largest correction to disp= 5.135874e-06 in node 1254 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002159 time avg. forc= 0.000042 largest residual force= 0.024384 in node 1233 and dof 3 largest increment of disp= 4.676761e-05 largest correction to disp= 3.358374e-06 in node 1212 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002170 time avg. forc= 0.000042 largest residual force= 0.010188 in node 1213 and dof 3 largest increment of disp= 4.676761e-05 largest correction to disp= 2.509718e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 21 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002180 time avg. forc= 0.000042 largest residual force= 0.004259 in node 1254 and dof 2 largest increment of disp= 4.676761e-05 largest correction to disp= 1.683634e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 21 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002184 time avg. forc= 0.000042 largest residual force= 0.001446 in node 1254 and dof 2 largest increment of disp= 4.676761e-05 largest correction to disp= 8.080492e-07 in node 1212 and dof 3 estimated number of iterations till convergence = 19 no convergence iteration 11 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002185 time avg. forc= 0.000042 largest residual force= 0.000113 in node 1254 and dof 2 largest increment of disp= 4.676761e-05 largest correction to disp= 2.370044e-07 in node 1213 and dof 3 estimated number of iterations till convergence = 14 no convergence iteration 12 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002185 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 4.676761e-05 largest correction to disp= 1.798704e-08 in node 1213 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00501072, limit = 0.001, normalization = 0.000194031, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0510017, limit = 0.001, normalization = 0.833793, conv = false ---[precice]  iteration: 5 of 100, time-window: 3708, time: 0.0003707 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3708 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.707000e-04 actual step time=3.708000e-04 actual total time=3.708000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.024198 time avg. forc= 0.000048 largest residual force= 22.300322 in node 1213 and dof 3 largest increment of disp= 4.679064e-05 largest correction to disp= 4.679064e-05 in node 1213 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.008548 time avg. forc= 0.000044 largest residual force= 6.184184 in node 1213 and dof 3 largest increment of disp= 4.679064e-05 largest correction to disp= 2.198348e-05 in node 1213 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.004189 time avg. forc= 0.000043 largest residual force= 1.749718 in node 1213 and dof 3 largest increment of disp= 4.679064e-05 largest correction to disp= 1.130227e-05 in node 1213 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002806 time avg. forc= 0.000042 largest residual force= 0.541397 in node 1213 and dof 3 largest increment of disp= 4.679064e-05 largest correction to disp= 1.084509e-05 in node 1187 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002319 time avg. forc= 0.000042 largest residual force= 0.180008 in node 1213 and dof 3 largest increment of disp= 4.679064e-05 largest correction to disp= 8.165760e-06 in node 1187 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002180 time avg. forc= 0.000042 largest residual force= 0.064140 in node 1233 and dof 3 largest increment of disp= 4.679064e-05 largest correction to disp= 5.142955e-06 in node 1254 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002159 time avg. forc= 0.000042 largest residual force= 0.024417 in node 1233 and dof 3 largest increment of disp= 4.679064e-05 largest correction to disp= 3.354168e-06 in node 1212 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002170 time avg. forc= 0.000042 largest residual force= 0.010200 in node 1213 and dof 3 largest increment of disp= 4.679064e-05 largest correction to disp= 2.510832e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 21 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002180 time avg. forc= 0.000042 largest residual force= 0.004265 in node 1254 and dof 2 largest increment of disp= 4.679064e-05 largest correction to disp= 1.684636e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 21 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002184 time avg. forc= 0.000042 largest residual force= 0.001449 in node 1254 and dof 2 largest increment of disp= 4.679064e-05 largest correction to disp= 8.087648e-07 in node 1212 and dof 3 estimated number of iterations till convergence = 19 no convergence iteration 11 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002185 time avg. forc= 0.000042 largest residual force= 0.000114 in node 1254 and dof 2 largest increment of disp= 4.679064e-05 largest correction to disp= 2.373279e-07 in node 1213 and dof 3 estimated number of iterations till convergence = 14 no convergence iteration 12 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002185 time avg. forc= 0.000042 largest residual force= 0.000002 in node 1598 and dof 2 largest increment of disp= 4.679064e-05 largest correction to disp= 1.800860e-08 in node 1213 and dof 3 estimated number of iterations till convergence = 13 no convergence iteration 13 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002185 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 4.679064e-05 largest correction to disp= 8.318251e-10 in node 1611 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00110323, limit = 0.001, normalization = 0.000194052, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0450961, limit = 0.001, normalization = 0.815572, conv = false ---[precice]  iteration: 6 of 100, time-window: 3708, time: 0.0003707 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3708 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.707000e-04 actual step time=3.708000e-04 actual total time=3.708000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.024038 time avg. forc= 0.000048 largest residual force= 22.133143 in node 1213 and dof 3 largest increment of disp= 4.667340e-05 largest correction to disp= 4.667340e-05 in node 1213 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.008500 time avg. forc= 0.000044 largest residual force= 6.136325 in node 1213 and dof 3 largest increment of disp= 4.667340e-05 largest correction to disp= 2.193475e-05 in node 1213 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.004174 time avg. forc= 0.000043 largest residual force= 1.736174 in node 1213 and dof 3 largest increment of disp= 4.667340e-05 largest correction to disp= 1.126100e-05 in node 1213 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002801 time avg. forc= 0.000042 largest residual force= 0.537436 in node 1213 and dof 3 largest increment of disp= 4.667340e-05 largest correction to disp= 1.083109e-05 in node 1187 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002317 time avg. forc= 0.000042 largest residual force= 0.178717 in node 1213 and dof 3 largest increment of disp= 4.667340e-05 largest correction to disp= 8.136544e-06 in node 1187 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002180 time avg. forc= 0.000042 largest residual force= 0.063711 in node 1233 and dof 3 largest increment of disp= 4.667340e-05 largest correction to disp= 5.118552e-06 in node 1254 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002159 time avg. forc= 0.000042 largest residual force= 0.024263 in node 1233 and dof 3 largest increment of disp= 4.667340e-05 largest correction to disp= 3.353420e-06 in node 1212 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002170 time avg. forc= 0.000042 largest residual force= 0.010143 in node 1213 and dof 3 largest increment of disp= 4.667340e-05 largest correction to disp= 2.505573e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 21 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002180 time avg. forc= 0.000042 largest residual force= 0.004243 in node 1254 and dof 2 largest increment of disp= 4.667340e-05 largest correction to disp= 1.678788e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 21 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002183 time avg. forc= 0.000042 largest residual force= 0.001432 in node 1254 and dof 2 largest increment of disp= 4.667340e-05 largest correction to disp= 8.027338e-07 in node 1212 and dof 3 estimated number of iterations till convergence = 19 no convergence iteration 11 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002184 time avg. forc= 0.000042 largest residual force= 0.000111 in node 1254 and dof 2 largest increment of disp= 4.667340e-05 largest correction to disp= 2.342531e-07 in node 1213 and dof 3 estimated number of iterations till convergence = 14 no convergence iteration 12 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002184 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 4.667340e-05 largest correction to disp= 1.755915e-08 in node 1213 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000748649, limit = 0.001, normalization = 0.000194058, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0149078, limit = 0.001, normalization = 0.805891, conv = false ---[precice]  iteration: 7 of 100, time-window: 3708, time: 0.0003707 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3708 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.707000e-04 actual step time=3.708000e-04 actual total time=3.708000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.024013 time avg. forc= 0.000048 largest residual force= 22.108256 in node 1213 and dof 3 largest increment of disp= 4.665750e-05 largest correction to disp= 4.665750e-05 in node 1213 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.008493 time avg. forc= 0.000044 largest residual force= 6.129199 in node 1213 and dof 3 largest increment of disp= 4.665750e-05 largest correction to disp= 2.192770e-05 in node 1213 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.004172 time avg. forc= 0.000043 largest residual force= 1.734158 in node 1213 and dof 3 largest increment of disp= 4.665750e-05 largest correction to disp= 1.125505e-05 in node 1213 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002800 time avg. forc= 0.000042 largest residual force= 0.536847 in node 1213 and dof 3 largest increment of disp= 4.665750e-05 largest correction to disp= 1.082920e-05 in node 1187 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002317 time avg. forc= 0.000042 largest residual force= 0.178526 in node 1213 and dof 3 largest increment of disp= 4.665750e-05 largest correction to disp= 8.132342e-06 in node 1187 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002180 time avg. forc= 0.000042 largest residual force= 0.063648 in node 1233 and dof 3 largest increment of disp= 4.665750e-05 largest correction to disp= 5.115414e-06 in node 1254 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002159 time avg. forc= 0.000042 largest residual force= 0.024240 in node 1233 and dof 3 largest increment of disp= 4.665750e-05 largest correction to disp= 3.352564e-06 in node 1212 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002170 time avg. forc= 0.000042 largest residual force= 0.010135 in node 1213 and dof 3 largest increment of disp= 4.665750e-05 largest correction to disp= 2.504858e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 21 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002180 time avg. forc= 0.000042 largest residual force= 0.004240 in node 1254 and dof 2 largest increment of disp= 4.665750e-05 largest correction to disp= 1.677948e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 21 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002183 time avg. forc= 0.000042 largest residual force= 0.001430 in node 1254 and dof 2 largest increment of disp= 4.665750e-05 largest correction to disp= 8.018119e-07 in node 1212 and dof 3 estimated number of iterations till convergence = 19 no convergence iteration 11 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002184 time avg. forc= 0.000042 largest residual force= 0.000110 in node 1254 and dof 2 largest increment of disp= 4.665750e-05 largest correction to disp= 2.337747e-07 in node 1213 and dof 3 estimated number of iterations till convergence = 14 no convergence iteration 12 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002184 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 4.665750e-05 largest correction to disp= 1.748377e-08 in node 1213 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000181624, limit = 0.001, normalization = 0.00019406, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00377056, limit = 0.001, normalization = 0.805982, conv = false ---[precice]  iteration: 8 of 100, time-window: 3708, time: 0.0003707 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3708 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.707000e-04 actual step time=3.708000e-04 actual total time=3.708000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.024003 time avg. forc= 0.000048 largest residual force= 22.097776 in node 1213 and dof 3 largest increment of disp= 4.665061e-05 largest correction to disp= 4.665061e-05 in node 1213 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.008490 time avg. forc= 0.000044 largest residual force= 6.126198 in node 1213 and dof 3 largest increment of disp= 4.665061e-05 largest correction to disp= 2.192468e-05 in node 1213 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.004171 time avg. forc= 0.000043 largest residual force= 1.733309 in node 1213 and dof 3 largest increment of disp= 4.665061e-05 largest correction to disp= 1.125246e-05 in node 1213 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002799 time avg. forc= 0.000042 largest residual force= 0.536599 in node 1213 and dof 3 largest increment of disp= 4.665061e-05 largest correction to disp= 1.082837e-05 in node 1187 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002317 time avg. forc= 0.000042 largest residual force= 0.178445 in node 1213 and dof 3 largest increment of disp= 4.665061e-05 largest correction to disp= 8.130557e-06 in node 1187 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002180 time avg. forc= 0.000042 largest residual force= 0.063621 in node 1233 and dof 3 largest increment of disp= 4.665061e-05 largest correction to disp= 5.114242e-06 in node 1254 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002159 time avg. forc= 0.000042 largest residual force= 0.024231 in node 1233 and dof 3 largest increment of disp= 4.665061e-05 largest correction to disp= 3.352200e-06 in node 1212 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002170 time avg. forc= 0.000042 largest residual force= 0.010132 in node 1213 and dof 3 largest increment of disp= 4.665061e-05 largest correction to disp= 2.504551e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 21 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002180 time avg. forc= 0.000042 largest residual force= 0.004239 in node 1254 and dof 2 largest increment of disp= 4.665061e-05 largest correction to disp= 1.677590e-06 in node 1212 and dof 3 estimated number of iterations till convergence = 21 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002183 time avg. forc= 0.000042 largest residual force= 0.001429 in node 1254 and dof 2 largest increment of disp= 4.665061e-05 largest correction to disp= 8.014270e-07 in node 1212 and dof 3 estimated number of iterations till convergence = 19 no convergence iteration 11 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002184 time avg. forc= 0.000042 largest residual force= 0.000110 in node 1254 and dof 2 largest increment of disp= 4.665061e-05 largest correction to disp= 2.335791e-07 in node 1213 and dof 3 estimated number of iterations till convergence = 14 no convergence iteration 12 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002184 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 4.665061e-05 largest correction to disp= 1.745305e-08 in node 1213 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000112165, limit = 0.001, normalization = 0.000194061, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000973369, limit = 0.001, normalization = 0.805136, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3709, time: 0.0003708 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3709 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.708000e-04 actual step time=3.709000e-04 actual total time=3.709000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001216 time avg. forc= 0.000042 largest residual force= 0.001439 in node 1384 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 1.626819e-05 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001216 time avg. forc= 0.000042 largest residual force= 0.000009 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 1.817031e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001216 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 6.725643e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.284266, limit = 0.001, normalization = 0.00019491, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.12666, limit = 0.001, normalization = 1.62277, conv = false ---[precice]  iteration: 2 of 100, time-window: 3709, time: 0.0003708 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3709 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.708000e-04 actual step time=3.709000e-04 actual total time=3.709000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000980 in node 1384 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 7.828500e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000010 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 1.800897e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 7.268002e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0776504, limit = 0.001, normalization = 0.000203443, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.28465, limit = 0.001, normalization = 2.97778, conv = false ---[precice]  iteration: 3 of 100, time-window: 3709, time: 0.0003708 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3709 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.708000e-04 actual step time=3.709000e-04 actual total time=3.709000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001220 time avg. forc= 0.000042 largest residual force= 0.000932 in node 1354 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 7.536242e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001220 time avg. forc= 0.000042 largest residual force= 0.000007 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 1.656087e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001220 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 5.405400e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0204634, limit = 0.001, normalization = 0.000203885, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.189698, limit = 0.001, normalization = 2.4342, conv = false ---[precice]  iteration: 4 of 100, time-window: 3709, time: 0.0003708 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3709 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.708000e-04 actual step time=3.709000e-04 actual total time=3.709000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001220 time avg. forc= 0.000042 largest residual force= 0.000931 in node 1354 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 7.230580e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001220 time avg. forc= 0.000042 largest residual force= 0.000008 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 1.666365e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001220 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 5.867209e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0113291, limit = 0.001, normalization = 0.00020412, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0780783, limit = 0.001, normalization = 2.46167, conv = false ---[precice]  iteration: 5 of 100, time-window: 3709, time: 0.0003708 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3709 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.708000e-04 actual step time=3.709000e-04 actual total time=3.709000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000929 in node 1354 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 7.200304e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000008 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 1.638821e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 5.889978e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0029243, limit = 0.001, normalization = 0.000204031, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0638151, limit = 0.001, normalization = 2.44611, conv = false ---[precice]  iteration: 6 of 100, time-window: 3709, time: 0.0003708 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3709 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.708000e-04 actual step time=3.709000e-04 actual total time=3.709000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000930 in node 1354 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 7.107907e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000008 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 1.644535e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 5.892729e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00259471, limit = 0.001, normalization = 0.000204156, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0134472, limit = 0.001, normalization = 2.45755, conv = false ---[precice]  iteration: 7 of 100, time-window: 3709, time: 0.0003708 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3709 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.708000e-04 actual step time=3.709000e-04 actual total time=3.709000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000930 in node 1354 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 7.116790e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000008 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 1.638554e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 5.853566e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00114021, limit = 0.001, normalization = 0.000204141, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00719318, limit = 0.001, normalization = 2.45413, conv = false ---[precice]  iteration: 8 of 100, time-window: 3709, time: 0.0003708 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3709 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.708000e-04 actual step time=3.709000e-04 actual total time=3.709000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000930 in node 1354 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 7.113867e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000008 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 1.637615e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 5.850133e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000592244, limit = 0.001, normalization = 0.000204144, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00383106, limit = 0.001, normalization = 2.454, conv = false ---[precice]  iteration: 9 of 100, time-window: 3709, time: 0.0003708 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3709 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.708000e-04 actual step time=3.709000e-04 actual total time=3.709000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000930 in node 1354 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 7.109914e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000008 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 1.637064e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001219 time avg. forc= 0.000042 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.263948e-05 largest correction to disp= 5.846160e-10 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000159537, limit = 0.001, normalization = 0.000204146, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000608525, limit = 0.001, normalization = 2.45277, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3710, time: 0.0003709 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3710 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.709000e-04 actual step time=3.710000e-04 actual total time=3.710000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002032 time avg. forc= 0.000043 largest residual force= 0.028883 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 5.571703e-06 in node 1387 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002075 time avg. forc= 0.000043 largest residual force= 0.006768 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 2.447111e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002087 time avg. forc= 0.000043 largest residual force= 0.003854 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 1.846523e-06 in node 1204 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002091 time avg. forc= 0.000043 largest residual force= 0.000454 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 6.472324e-07 in node 1205 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002091 time avg. forc= 0.000043 largest residual force= 0.000008 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 8.953955e-08 in node 1205 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002091 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1170 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 1.407712e-09 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.193879, limit = 0.001, normalization = 0.000204574, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 3.18026, limit = 0.001, normalization = 1.0662, conv = false ---[precice]  iteration: 2 of 100, time-window: 3710, time: 0.0003709 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3710 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.709000e-04 actual step time=3.710000e-04 actual total time=3.710000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001993 time avg. forc= 0.000043 largest residual force= 0.052170 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 7.200811e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002030 time avg. forc= 0.000043 largest residual force= 0.011055 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 2.702939e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002049 time avg. forc= 0.000043 largest residual force= 0.006282 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 2.467805e-06 in node 1204 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002056 time avg. forc= 0.000043 largest residual force= 0.001523 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 1.131681e-06 in node 1204 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002057 time avg. forc= 0.000043 largest residual force= 0.000105 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 3.042983e-07 in node 1205 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002058 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 1.815832e-08 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0376285, limit = 0.001, normalization = 0.000200497, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.536541, limit = 0.001, normalization = 1.2879, conv = false ---[precice]  iteration: 3 of 100, time-window: 3710, time: 0.0003709 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3710 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.709000e-04 actual step time=3.710000e-04 actual total time=3.710000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001987 time avg. forc= 0.000043 largest residual force= 0.045713 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 6.685901e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002030 time avg. forc= 0.000043 largest residual force= 0.010034 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 2.734463e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002048 time avg. forc= 0.000043 largest residual force= 0.005641 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 2.333391e-06 in node 1204 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002054 time avg. forc= 0.000043 largest residual force= 0.001183 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 9.874526e-07 in node 1204 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002055 time avg. forc= 0.000043 largest residual force= 0.000058 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 2.416340e-07 in node 1205 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002055 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 1.056051e-08 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0108955, limit = 0.001, normalization = 0.000200402, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.100506, limit = 0.001, normalization = 1.29608, conv = false ---[precice]  iteration: 4 of 100, time-window: 3710, time: 0.0003709 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3710 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.709000e-04 actual step time=3.710000e-04 actual total time=3.710000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001987 time avg. forc= 0.000043 largest residual force= 0.045240 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 6.535214e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002030 time avg. forc= 0.000043 largest residual force= 0.009931 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 2.730713e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002047 time avg. forc= 0.000043 largest residual force= 0.005593 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 2.314893e-06 in node 1204 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002053 time avg. forc= 0.000043 largest residual force= 0.001167 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 9.795045e-07 in node 1205 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002054 time avg. forc= 0.000043 largest residual force= 0.000057 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 2.384969e-07 in node 1205 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002054 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 1.028524e-08 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00416183, limit = 0.001, normalization = 0.000200423, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.046291, limit = 0.001, normalization = 1.33615, conv = false ---[precice]  iteration: 5 of 100, time-window: 3710, time: 0.0003709 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3710 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.709000e-04 actual step time=3.710000e-04 actual total time=3.710000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001986 time avg. forc= 0.000043 largest residual force= 0.044983 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 6.523812e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002030 time avg. forc= 0.000043 largest residual force= 0.009876 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 2.730066e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002047 time avg. forc= 0.000043 largest residual force= 0.005564 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 2.306768e-06 in node 1204 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002053 time avg. forc= 0.000043 largest residual force= 0.001155 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 9.768755e-07 in node 1205 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002054 time avg. forc= 0.000043 largest residual force= 0.000056 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 2.364027e-07 in node 1205 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002054 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 1.009456e-08 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00368522, limit = 0.001, normalization = 0.000200417, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0497258, limit = 0.001, normalization = 1.33641, conv = false ---[precice]  iteration: 6 of 100, time-window: 3710, time: 0.0003709 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3710 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.709000e-04 actual step time=3.710000e-04 actual total time=3.710000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001986 time avg. forc= 0.000043 largest residual force= 0.045327 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 6.543075e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002030 time avg. forc= 0.000043 largest residual force= 0.009946 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 2.736771e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002047 time avg. forc= 0.000043 largest residual force= 0.005594 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 2.315532e-06 in node 1204 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002053 time avg. forc= 0.000043 largest residual force= 0.001169 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 9.823032e-07 in node 1205 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002054 time avg. forc= 0.000043 largest residual force= 0.000057 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 2.394931e-07 in node 1205 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002054 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 1.035804e-08 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00155841, limit = 0.001, normalization = 0.00020043, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00604104, limit = 0.001, normalization = 1.32826, conv = false ---[precice]  iteration: 7 of 100, time-window: 3710, time: 0.0003709 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3710 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.709000e-04 actual step time=3.710000e-04 actual total time=3.710000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001986 time avg. forc= 0.000043 largest residual force= 0.045474 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 6.544462e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002030 time avg. forc= 0.000043 largest residual force= 0.009975 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 2.739753e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002047 time avg. forc= 0.000043 largest residual force= 0.005607 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 2.318939e-06 in node 1204 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002053 time avg. forc= 0.000043 largest residual force= 0.001175 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 9.847224e-07 in node 1205 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002054 time avg. forc= 0.000043 largest residual force= 0.000058 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 2.408918e-07 in node 1205 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002054 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 1.047922e-08 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000479077, limit = 0.001, normalization = 0.000200435, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00980579, limit = 0.001, normalization = 1.32642, conv = false ---[precice]  iteration: 8 of 100, time-window: 3710, time: 0.0003709 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3710 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.709000e-04 actual step time=3.710000e-04 actual total time=3.710000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001986 time avg. forc= 0.000043 largest residual force= 0.045451 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 6.543829e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002030 time avg. forc= 0.000043 largest residual force= 0.009971 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 2.739214e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002047 time avg. forc= 0.000043 largest residual force= 0.005605 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 2.318483e-06 in node 1204 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002053 time avg. forc= 0.000043 largest residual force= 0.001174 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 9.843242e-07 in node 1205 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002054 time avg. forc= 0.000043 largest residual force= 0.000058 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 2.406712e-07 in node 1205 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002054 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 1.046029e-08 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000111987, limit = 0.001, normalization = 0.000200435, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00486325, limit = 0.001, normalization = 1.3261, conv = false ---[precice]  iteration: 9 of 100, time-window: 3710, time: 0.0003709 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3710 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.709000e-04 actual step time=3.710000e-04 actual total time=3.710000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001986 time avg. forc= 0.000043 largest residual force= 0.045427 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 6.543466e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002030 time avg. forc= 0.000043 largest residual force= 0.009966 in node 1205 and dof 3 largest increment of disp= 8.471840e-06 largest correction to disp= 2.738682e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002047 time avg. forc= 0.000043 largest residual force= 0.005603 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 2.317923e-06 in node 1204 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002053 time avg. forc= 0.000043 largest residual force= 0.001173 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 9.839194e-07 in node 1205 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002054 time avg. forc= 0.000043 largest residual force= 0.000058 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 2.404400e-07 in node 1205 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002054 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1168 and dof 2 largest increment of disp= 8.471840e-06 largest correction to disp= 1.044029e-08 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 8.07456e-05, limit = 0.001, normalization = 0.000200434, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000586599, limit = 0.001, normalization = 1.32604, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3711, time: 0.000371 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3711 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.710000e-04 actual step time=3.711000e-04 actual total time=3.711000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002009 time avg. forc= 0.000043 largest residual force= 0.002275 in node 1098 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 1.473833e-05 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002009 time avg. forc= 0.000043 largest residual force= 0.000237 in node 1140 and dof 2 largest increment of disp= 1.742151e-05 largest correction to disp= 4.468904e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002010 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 1.742151e-05 largest correction to disp= 1.661110e-08 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.288101, limit = 0.001, normalization = 0.000196148, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.59679, limit = 0.001, normalization = 2.12558, conv = false ---[precice]  iteration: 2 of 100, time-window: 3711, time: 0.000371 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3711 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.710000e-04 actual step time=3.711000e-04 actual total time=3.711000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001932 time avg. forc= 0.000043 largest residual force= 0.002055 in node 1098 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 3.971977e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001933 time avg. forc= 0.000043 largest residual force= 0.000207 in node 1140 and dof 2 largest increment of disp= 1.742151e-05 largest correction to disp= 4.180784e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001933 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 1.315279e-08 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.079755, limit = 0.001, normalization = 0.000195513, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0633754, limit = 0.001, normalization = 1.86688, conv = false ---[precice]  iteration: 3 of 100, time-window: 3711, time: 0.000371 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3711 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.710000e-04 actual step time=3.711000e-04 actual total time=3.711000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.002056 in node 1098 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 3.557224e-06 in node 1077 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001931 time avg. forc= 0.000043 largest residual force= 0.000208 in node 1140 and dof 2 largest increment of disp= 1.742151e-05 largest correction to disp= 4.210088e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001931 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 1.310941e-08 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0251713, limit = 0.001, normalization = 0.000195771, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.159831, limit = 0.001, normalization = 1.80663, conv = false ---[precice]  iteration: 4 of 100, time-window: 3711, time: 0.000371 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3711 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.710000e-04 actual step time=3.711000e-04 actual total time=3.711000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.002034 in node 1098 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 3.642016e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.000205 in node 1140 and dof 2 largest increment of disp= 1.742151e-05 largest correction to disp= 4.060919e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 1.271140e-08 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0121265, limit = 0.001, normalization = 0.000195801, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0202543, limit = 0.001, normalization = 1.7943, conv = false ---[precice]  iteration: 5 of 100, time-window: 3711, time: 0.000371 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3711 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.710000e-04 actual step time=3.711000e-04 actual total time=3.711000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001929 time avg. forc= 0.000043 largest residual force= 0.002023 in node 1098 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 3.890302e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.000204 in node 1140 and dof 2 largest increment of disp= 1.742151e-05 largest correction to disp= 3.981510e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 1.249904e-08 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0038897, limit = 0.001, normalization = 0.000195813, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.048854, limit = 0.001, normalization = 1.79165, conv = false ---[precice]  iteration: 6 of 100, time-window: 3711, time: 0.000371 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3711 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.710000e-04 actual step time=3.711000e-04 actual total time=3.711000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.002021 in node 1098 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 3.965399e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.000203 in node 1140 and dof 2 largest increment of disp= 1.742151e-05 largest correction to disp= 3.961263e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 1.246197e-08 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0025591, limit = 0.001, normalization = 0.000195766, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0314619, limit = 0.001, normalization = 1.79086, conv = false ---[precice]  iteration: 7 of 100, time-window: 3711, time: 0.000371 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3711 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.710000e-04 actual step time=3.711000e-04 actual total time=3.711000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001929 time avg. forc= 0.000043 largest residual force= 0.002022 in node 1098 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 3.972259e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.000204 in node 1140 and dof 2 largest increment of disp= 1.742151e-05 largest correction to disp= 3.969318e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 1.247733e-08 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000665798, limit = 0.001, normalization = 0.000195782, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00183748, limit = 0.001, normalization = 1.79154, conv = false ---[precice]  iteration: 8 of 100, time-window: 3711, time: 0.000371 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3711 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.710000e-04 actual step time=3.711000e-04 actual total time=3.711000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.002022 in node 1098 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 3.973842e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.000204 in node 1140 and dof 2 largest increment of disp= 1.742151e-05 largest correction to disp= 3.966698e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 1.247346e-08 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000216995, limit = 0.001, normalization = 0.000195779, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00264907, limit = 0.001, normalization = 1.79163, conv = false ---[precice]  iteration: 9 of 100, time-window: 3711, time: 0.000371 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3711 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.710000e-04 actual step time=3.711000e-04 actual total time=3.711000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.002022 in node 1098 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 3.977392e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.000204 in node 1140 and dof 2 largest increment of disp= 1.742151e-05 largest correction to disp= 3.966222e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 1.247148e-08 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000116662, limit = 0.001, normalization = 0.000195778, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00178225, limit = 0.001, normalization = 1.79164, conv = false ---[precice]  iteration: 10 of 100, time-window: 3711, time: 0.000371 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3711 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.710000e-04 actual step time=3.711000e-04 actual total time=3.711000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.002022 in node 1098 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 3.978047e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.000204 in node 1140 and dof 2 largest increment of disp= 1.742151e-05 largest correction to disp= 3.966327e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001930 time avg. forc= 0.000043 largest residual force= 0.000000 in node 1120 and dof 3 largest increment of disp= 1.742151e-05 largest correction to disp= 1.247191e-08 in node 1098 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 4.76179e-05, limit = 0.001, normalization = 0.000195778, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000193958, limit = 0.001, normalization = 1.79161, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3712, time: 0.0003711 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3712 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.711000e-04 actual step time=3.712000e-04 actual total time=3.712000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001512 time avg. forc= 0.000044 largest residual force= 0.001283 in node 1077 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 1.342936e-05 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001512 time avg. forc= 0.000044 largest residual force= 0.000039 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 1.983829e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001512 time avg. forc= 0.000044 largest residual force= 0.000000 in node 980 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 2.640414e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.245878, limit = 0.001, normalization = 0.000201328, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.22176, limit = 0.001, normalization = 0.783644, conv = false ---[precice]  iteration: 2 of 100, time-window: 3712, time: 0.0003711 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3712 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.711000e-04 actual step time=3.712000e-04 actual total time=3.712000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001535 time avg. forc= 0.000044 largest residual force= 0.001048 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 8.743971e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001536 time avg. forc= 0.000044 largest residual force= 0.000038 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 1.947952e-07 in node 1516 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001536 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 2.500524e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0456007, limit = 0.001, normalization = 0.000208287, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.938765, limit = 0.001, normalization = 2.5075, conv = false ---[precice]  iteration: 3 of 100, time-window: 3712, time: 0.0003711 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3712 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.711000e-04 actual step time=3.712000e-04 actual total time=3.712000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.001008 in node 1077 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 9.102311e-06 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000039 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 2.008448e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 2.535932e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0143477, limit = 0.001, normalization = 0.000208332, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.102172, limit = 0.001, normalization = 2.3641, conv = false ---[precice]  iteration: 4 of 100, time-window: 3712, time: 0.0003711 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3712 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.711000e-04 actual step time=3.712000e-04 actual total time=3.712000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.001005 in node 1077 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 9.025279e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000038 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 2.003418e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 2.510252e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00806925, limit = 0.001, normalization = 0.000208435, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0158231, limit = 0.001, normalization = 2.33068, conv = false ---[precice]  iteration: 5 of 100, time-window: 3712, time: 0.0003711 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3712 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.711000e-04 actual step time=3.712000e-04 actual total time=3.712000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000997 in node 1077 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 8.889486e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000038 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 2.000708e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000000 in node 908 and dof 1 largest increment of disp= 1.967265e-05 largest correction to disp= 2.498149e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0038727, limit = 0.001, normalization = 0.000208603, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00359153, limit = 0.001, normalization = 2.33259, conv = false ---[precice]  iteration: 6 of 100, time-window: 3712, time: 0.0003711 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3712 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.711000e-04 actual step time=3.712000e-04 actual total time=3.712000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000996 in node 1077 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 8.899240e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000038 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 1.999402e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 2.494155e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00123516, limit = 0.001, normalization = 0.000208585, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0158519, limit = 0.001, normalization = 2.33212, conv = false ---[precice]  iteration: 7 of 100, time-window: 3712, time: 0.0003711 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3712 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.711000e-04 actual step time=3.712000e-04 actual total time=3.712000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000996 in node 1077 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 8.887743e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000038 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 2.001551e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 2.497134e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000549309, limit = 0.001, normalization = 0.000208604, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00684451, limit = 0.001, normalization = 2.33237, conv = false ---[precice]  iteration: 8 of 100, time-window: 3712, time: 0.0003711 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3712 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.711000e-04 actual step time=3.712000e-04 actual total time=3.712000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000997 in node 1077 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 8.893618e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000038 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 2.002499e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 2.498171e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000191545, limit = 0.001, normalization = 0.000208601, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00152714, limit = 0.001, normalization = 2.33235, conv = false ---[precice]  iteration: 9 of 100, time-window: 3712, time: 0.0003711 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3712 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.711000e-04 actual step time=3.712000e-04 actual total time=3.712000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000997 in node 1077 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 8.895672e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000038 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 2.002216e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001530 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 1.967265e-05 largest correction to disp= 2.497788e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.79844e-05, limit = 0.001, normalization = 0.000208598, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000376037, limit = 0.001, normalization = 2.3324, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3713, time: 0.0003712 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3713 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.712000e-04 actual step time=3.713000e-04 actual total time=3.713000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002418 time avg. forc= 0.000044 largest residual force= 0.013821 in node 1317 and dof 1 largest increment of disp= 1.420911e-05 largest correction to disp= 9.271782e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002452 time avg. forc= 0.000044 largest residual force= 0.004165 in node 1255 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.959514e-06 in node 1107 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002462 time avg. forc= 0.000044 largest residual force= 0.001504 in node 1186 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.214903e-06 in node 1213 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002464 time avg. forc= 0.000044 largest residual force= 0.000079 in node 1186 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.433533e-07 in node 1187 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002464 time avg. forc= 0.000044 largest residual force= 0.000003 in node 1078 and dof 1 largest increment of disp= 1.420911e-05 largest correction to disp= 1.788731e-08 in node 1187 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002464 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1151 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.263632e-09 in node 1151 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.23796, limit = 0.001, normalization = 0.000204607, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.16664, limit = 0.001, normalization = 1.95031, conv = false ---[precice]  iteration: 2 of 100, time-window: 3713, time: 0.0003712 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3713 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.712000e-04 actual step time=3.713000e-04 actual total time=3.713000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002346 time avg. forc= 0.000044 largest residual force= 0.017475 in node 1317 and dof 1 largest increment of disp= 1.420911e-05 largest correction to disp= 5.205902e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002381 time avg. forc= 0.000044 largest residual force= 0.004320 in node 1317 and dof 1 largest increment of disp= 1.420911e-05 largest correction to disp= 2.396573e-06 in node 1214 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002391 time avg. forc= 0.000044 largest residual force= 0.001762 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.613254e-06 in node 1212 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002393 time avg. forc= 0.000044 largest residual force= 0.000085 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 3.265171e-07 in node 1233 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002393 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.092356e-08 in node 1233 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.157256, limit = 0.001, normalization = 0.000196132, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.98289, limit = 0.001, normalization = 2.1964, conv = false ---[precice]  iteration: 3 of 100, time-window: 3713, time: 0.0003712 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3713 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.712000e-04 actual step time=3.713000e-04 actual total time=3.713000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002340 time avg. forc= 0.000044 largest residual force= 0.016424 in node 1317 and dof 1 largest increment of disp= 1.420911e-05 largest correction to disp= 4.902650e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002373 time avg. forc= 0.000044 largest residual force= 0.004041 in node 1317 and dof 1 largest increment of disp= 1.420911e-05 largest correction to disp= 2.176740e-06 in node 1214 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002382 time avg. forc= 0.000044 largest residual force= 0.001637 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.506372e-06 in node 1212 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002384 time avg. forc= 0.000044 largest residual force= 0.000074 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.953366e-07 in node 1233 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002384 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.756170e-08 in node 1233 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0552381, limit = 0.001, normalization = 0.000195454, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.14274, limit = 0.001, normalization = 1.21297, conv = false ---[precice]  iteration: 4 of 100, time-window: 3713, time: 0.0003712 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3713 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.712000e-04 actual step time=3.713000e-04 actual total time=3.713000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002342 time avg. forc= 0.000044 largest residual force= 0.015989 in node 1317 and dof 1 largest increment of disp= 1.420911e-05 largest correction to disp= 4.830977e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002374 time avg. forc= 0.000044 largest residual force= 0.003965 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.103407e-06 in node 1214 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002383 time avg. forc= 0.000044 largest residual force= 0.001577 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.435994e-06 in node 1212 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002385 time avg. forc= 0.000044 largest residual force= 0.000072 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.812728e-07 in node 1233 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002385 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.669852e-08 in node 1233 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0103755, limit = 0.001, normalization = 0.000195181, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.312105, limit = 0.001, normalization = 0.8347, conv = false ---[precice]  iteration: 5 of 100, time-window: 3713, time: 0.0003712 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3713 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.712000e-04 actual step time=3.713000e-04 actual total time=3.713000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002341 time avg. forc= 0.000044 largest residual force= 0.015984 in node 1317 and dof 1 largest increment of disp= 1.420911e-05 largest correction to disp= 4.864831e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002374 time avg. forc= 0.000044 largest residual force= 0.003969 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.104376e-06 in node 1214 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002383 time avg. forc= 0.000044 largest residual force= 0.001577 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.438983e-06 in node 1212 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002384 time avg. forc= 0.000044 largest residual force= 0.000071 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.814553e-07 in node 1233 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002385 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.664865e-08 in node 1233 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00283554, limit = 0.001, normalization = 0.000195194, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.126325, limit = 0.001, normalization = 0.883601, conv = false ---[precice]  iteration: 6 of 100, time-window: 3713, time: 0.0003712 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3713 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.712000e-04 actual step time=3.713000e-04 actual total time=3.713000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002341 time avg. forc= 0.000044 largest residual force= 0.016029 in node 1317 and dof 1 largest increment of disp= 1.420911e-05 largest correction to disp= 4.873616e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002373 time avg. forc= 0.000044 largest residual force= 0.003974 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.111944e-06 in node 1214 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002382 time avg. forc= 0.000044 largest residual force= 0.001582 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.444449e-06 in node 1212 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002384 time avg. forc= 0.000044 largest residual force= 0.000072 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.827422e-07 in node 1233 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002384 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.674504e-08 in node 1233 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00117078, limit = 0.001, normalization = 0.000195212, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0200338, limit = 0.001, normalization = 0.881224, conv = false ---[precice]  iteration: 7 of 100, time-window: 3713, time: 0.0003712 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3713 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.712000e-04 actual step time=3.713000e-04 actual total time=3.713000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002341 time avg. forc= 0.000044 largest residual force= 0.016034 in node 1317 and dof 1 largest increment of disp= 1.420911e-05 largest correction to disp= 4.881961e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002373 time avg. forc= 0.000044 largest residual force= 0.003975 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.110795e-06 in node 1214 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002382 time avg. forc= 0.000044 largest residual force= 0.001582 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.444700e-06 in node 1212 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002384 time avg. forc= 0.000044 largest residual force= 0.000072 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.828147e-07 in node 1233 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002384 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.674553e-08 in node 1233 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000446994, limit = 0.001, normalization = 0.000195214, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00585956, limit = 0.001, normalization = 0.882736, conv = false ---[precice]  iteration: 8 of 100, time-window: 3713, time: 0.0003712 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3713 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.712000e-04 actual step time=3.713000e-04 actual total time=3.713000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002341 time avg. forc= 0.000044 largest residual force= 0.016037 in node 1317 and dof 1 largest increment of disp= 1.420911e-05 largest correction to disp= 4.881029e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002373 time avg. forc= 0.000044 largest residual force= 0.003976 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.111042e-06 in node 1214 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002382 time avg. forc= 0.000044 largest residual force= 0.001583 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.444973e-06 in node 1212 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002384 time avg. forc= 0.000044 largest residual force= 0.000072 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.828904e-07 in node 1233 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002384 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.675293e-08 in node 1233 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000258522, limit = 0.001, normalization = 0.000195216, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00836907, limit = 0.001, normalization = 0.881723, conv = false ---[precice]  iteration: 9 of 100, time-window: 3713, time: 0.0003712 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3713 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.712000e-04 actual step time=3.713000e-04 actual total time=3.713000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002341 time avg. forc= 0.000044 largest residual force= 0.016034 in node 1317 and dof 1 largest increment of disp= 1.420911e-05 largest correction to disp= 4.880735e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002373 time avg. forc= 0.000044 largest residual force= 0.003975 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.110902e-06 in node 1214 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002382 time avg. forc= 0.000044 largest residual force= 0.001582 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.444773e-06 in node 1212 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002384 time avg. forc= 0.000044 largest residual force= 0.000072 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.828227e-07 in node 1233 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002384 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.674664e-08 in node 1233 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000139233, limit = 0.001, normalization = 0.000195214, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00223087, limit = 0.001, normalization = 0.881896, conv = false ---[precice]  iteration: 10 of 100, time-window: 3713, time: 0.0003712 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3713 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.712000e-04 actual step time=3.713000e-04 actual total time=3.713000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002341 time avg. forc= 0.000044 largest residual force= 0.016032 in node 1317 and dof 1 largest increment of disp= 1.420911e-05 largest correction to disp= 4.880994e-06 in node 1586 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002373 time avg. forc= 0.000044 largest residual force= 0.003975 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.110905e-06 in node 1214 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002382 time avg. forc= 0.000044 largest residual force= 0.001576 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.446928e-06 in node 1212 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002384 time avg. forc= 0.000044 largest residual force= 0.000073 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 2.737650e-07 in node 1185 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002384 time avg. forc= 0.000044 largest residual force= 0.000000 in node 1254 and dof 2 largest increment of disp= 1.420911e-05 largest correction to disp= 1.684286e-08 in node 1233 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.91246e-05, limit = 0.001, normalization = 0.000195214, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000119151, limit = 0.001, normalization = 0.882353, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3714, time: 0.0003713 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3714 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.713000e-04 actual step time=3.714000e-04 actual total time=3.714000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001348 time avg. forc= 0.000045 largest residual force= 0.001934 in node 1384 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 1.795687e-05 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001348 time avg. forc= 0.000045 largest residual force= 0.000020 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 2.624385e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001348 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 1.601538e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.310006, limit = 0.001, normalization = 0.000195994, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.15542, limit = 0.001, normalization = 1.79546, conv = false ---[precice]  iteration: 2 of 100, time-window: 3714, time: 0.0003713 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3714 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.713000e-04 actual step time=3.714000e-04 actual total time=3.714000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001352 time avg. forc= 0.000045 largest residual force= 0.001439 in node 1354 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 6.914962e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001352 time avg. forc= 0.000045 largest residual force= 0.000022 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 2.781115e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001352 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 1.774221e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0903886, limit = 0.001, normalization = 0.000207046, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.01961, limit = 0.001, normalization = 3.24859, conv = false ---[precice]  iteration: 3 of 100, time-window: 3714, time: 0.0003713 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3714 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.713000e-04 actual step time=3.714000e-04 actual total time=3.714000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.001430 in node 1354 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 8.054618e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.000018 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 2.436538e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 1.381436e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0158065, limit = 0.001, normalization = 0.000206381, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.128898, limit = 0.001, normalization = 2.72845, conv = false ---[precice]  iteration: 4 of 100, time-window: 3714, time: 0.0003713 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3714 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.713000e-04 actual step time=3.714000e-04 actual total time=3.714000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001348 time avg. forc= 0.000045 largest residual force= 0.001417 in node 1354 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 7.967121e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.000016 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 2.307938e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 1.336082e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00939366, limit = 0.001, normalization = 0.000206544, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0599074, limit = 0.001, normalization = 2.67572, conv = false ---[precice]  iteration: 5 of 100, time-window: 3714, time: 0.0003713 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3714 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.713000e-04 actual step time=3.714000e-04 actual total time=3.714000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.001415 in node 1354 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 7.775199e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.000016 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 2.309508e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 1.313522e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00521484, limit = 0.001, normalization = 0.000206679, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0154028, limit = 0.001, normalization = 2.66916, conv = false ---[precice]  iteration: 6 of 100, time-window: 3714, time: 0.0003713 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3714 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.713000e-04 actual step time=3.714000e-04 actual total time=3.714000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.001415 in node 1354 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 7.691196e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.000016 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 2.336410e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 1.328727e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00222158, limit = 0.001, normalization = 0.000206798, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00951206, limit = 0.001, normalization = 2.67509, conv = false ---[precice]  iteration: 7 of 100, time-window: 3714, time: 0.0003713 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3714 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.713000e-04 actual step time=3.714000e-04 actual total time=3.714000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.001415 in node 1354 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 7.718255e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.000017 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 2.351537e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 1.334388e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00105323, limit = 0.001, normalization = 0.000206791, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00536539, limit = 0.001, normalization = 2.6759, conv = false ---[precice]  iteration: 8 of 100, time-window: 3714, time: 0.0003713 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3714 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.713000e-04 actual step time=3.714000e-04 actual total time=3.714000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001349 time avg. forc= 0.000045 largest residual force= 0.006299 in node 1587 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 7.756640e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.000135 in node 1584 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 2.609171e-06 in node 1590 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1584 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 2.461234e-09 in node 1582 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00026339, limit = 0.001, normalization = 0.000206787, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00177919, limit = 0.001, normalization = 2.67419, conv = false ---[precice]  iteration: 9 of 100, time-window: 3714, time: 0.0003713 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3714 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.713000e-04 actual step time=3.714000e-04 actual total time=3.714000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.001415 in node 1354 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 7.726013e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.000017 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 2.350261e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001347 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.476990e-05 largest correction to disp= 1.332818e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000147124, limit = 0.001, normalization = 0.000206781, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 9.34949e-05, limit = 0.001, normalization = 2.6747, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3715, time: 0.0003714 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3715 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.714000e-04 actual step time=3.715000e-04 actual total time=3.715000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002135 time avg. forc= 0.000045 largest residual force= 0.036887 in node 1419 and dof 3 largest increment of disp= 9.808169e-06 largest correction to disp= 9.808169e-06 in node 1385 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002220 time avg. forc= 0.000045 largest residual force= 0.007934 in node 1419 and dof 3 largest increment of disp= 9.808169e-06 largest correction to disp= 3.389333e-06 in node 1417 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002244 time avg. forc= 0.000045 largest residual force= 0.004508 in node 1386 and dof 2 largest increment of disp= 9.808169e-06 largest correction to disp= 2.888943e-06 in node 1417 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002253 time avg. forc= 0.000045 largest residual force= 0.000789 in node 1388 and dof 2 largest increment of disp= 9.808169e-06 largest correction to disp= 9.568066e-07 in node 1419 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002254 time avg. forc= 0.000045 largest residual force= 0.000036 in node 1388 and dof 2 largest increment of disp= 9.808169e-06 largest correction to disp= 1.633260e-07 in node 1419 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002254 time avg. forc= 0.000045 largest residual force= 0.000001 in node 1426 and dof 2 largest increment of disp= 9.808169e-06 largest correction to disp= 6.257614e-09 in node 1387 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002254 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 9.808169e-06 largest correction to disp= 8.848650e-11 in node 1447 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.210027, limit = 0.001, normalization = 0.000207598, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 3.2904, limit = 0.001, normalization = 1.10921, conv = false ---[precice]  iteration: 2 of 100, time-window: 3715, time: 0.0003714 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3715 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.714000e-04 actual step time=3.715000e-04 actual total time=3.715000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002104 time avg. forc= 0.000045 largest residual force= 0.064896 in node 1419 and dof 3 largest increment of disp= 1.159557e-05 largest correction to disp= 1.159557e-05 in node 1385 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002177 time avg. forc= 0.000045 largest residual force= 0.013746 in node 1419 and dof 3 largest increment of disp= 1.159557e-05 largest correction to disp= 3.848642e-06 in node 1385 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002212 time avg. forc= 0.000045 largest residual force= 0.006327 in node 1388 and dof 2 largest increment of disp= 1.159557e-05 largest correction to disp= 3.537506e-06 in node 1417 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002226 time avg. forc= 0.000045 largest residual force= 0.001870 in node 1388 and dof 2 largest increment of disp= 1.159557e-05 largest correction to disp= 1.514765e-06 in node 1419 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002228 time avg. forc= 0.000045 largest residual force= 0.000217 in node 1388 and dof 2 largest increment of disp= 1.159557e-05 largest correction to disp= 4.385157e-07 in node 1419 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002228 time avg. forc= 0.000045 largest residual force= 0.000002 in node 1388 and dof 2 largest increment of disp= 1.159557e-05 largest correction to disp= 3.884943e-08 in node 1387 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002228 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1386 and dof 2 largest increment of disp= 1.159557e-05 largest correction to disp= 4.085110e-10 in node 1387 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0513577, limit = 0.001, normalization = 0.000204165, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.26184, limit = 0.001, normalization = 1.48006, conv = false ---[precice]  iteration: 3 of 100, time-window: 3715, time: 0.0003714 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3715 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.714000e-04 actual step time=3.715000e-04 actual total time=3.715000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002093 time avg. forc= 0.000045 largest residual force= 0.041102 in node 1419 and dof 3 largest increment of disp= 1.018837e-05 largest correction to disp= 1.018837e-05 in node 1385 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002179 time avg. forc= 0.000045 largest residual force= 0.008905 in node 1419 and dof 3 largest increment of disp= 1.018837e-05 largest correction to disp= 3.536057e-06 in node 1417 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002205 time avg. forc= 0.000045 largest residual force= 0.004848 in node 1386 and dof 2 largest increment of disp= 1.018837e-05 largest correction to disp= 3.052002e-06 in node 1417 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002214 time avg. forc= 0.000045 largest residual force= 0.000934 in node 1388 and dof 2 largest increment of disp= 1.018837e-05 largest correction to disp= 1.074927e-06 in node 1419 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002215 time avg. forc= 0.000045 largest residual force= 0.000047 in node 1388 and dof 2 largest increment of disp= 1.018837e-05 largest correction to disp= 1.974712e-07 in node 1419 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002215 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1388 and dof 2 largest increment of disp= 1.018837e-05 largest correction to disp= 8.383396e-09 in node 1387 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0160848, limit = 0.001, normalization = 0.000202942, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.272141, limit = 0.001, normalization = 1.53464, conv = false ---[precice]  iteration: 4 of 100, time-window: 3715, time: 0.0003714 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3715 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.714000e-04 actual step time=3.715000e-04 actual total time=3.715000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002093 time avg. forc= 0.000045 largest residual force= 0.040859 in node 1419 and dof 3 largest increment of disp= 1.022064e-05 largest correction to disp= 1.022064e-05 in node 1385 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002179 time avg. forc= 0.000045 largest residual force= 0.008847 in node 1419 and dof 3 largest increment of disp= 1.022064e-05 largest correction to disp= 3.539195e-06 in node 1417 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002205 time avg. forc= 0.000045 largest residual force= 0.004854 in node 1386 and dof 2 largest increment of disp= 1.022064e-05 largest correction to disp= 3.038262e-06 in node 1417 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002215 time avg. forc= 0.000045 largest residual force= 0.000936 in node 1388 and dof 2 largest increment of disp= 1.022064e-05 largest correction to disp= 1.067729e-06 in node 1419 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002216 time avg. forc= 0.000045 largest residual force= 0.000049 in node 1388 and dof 2 largest increment of disp= 1.022064e-05 largest correction to disp= 1.979047e-07 in node 1419 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002216 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1388 and dof 2 largest increment of disp= 1.022064e-05 largest correction to disp= 8.576611e-09 in node 1387 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00666435, limit = 0.001, normalization = 0.000203001, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.35084, limit = 0.001, normalization = 1.50307, conv = false ---[precice]  iteration: 5 of 100, time-window: 3715, time: 0.0003714 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3715 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.714000e-04 actual step time=3.715000e-04 actual total time=3.715000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002092 time avg. forc= 0.000045 largest residual force= 0.041845 in node 1419 and dof 3 largest increment of disp= 1.032617e-05 largest correction to disp= 1.032617e-05 in node 1385 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002178 time avg. forc= 0.000045 largest residual force= 0.009066 in node 1419 and dof 3 largest increment of disp= 1.032617e-05 largest correction to disp= 3.562313e-06 in node 1417 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002205 time avg. forc= 0.000045 largest residual force= 0.004944 in node 1386 and dof 2 largest increment of disp= 1.032617e-05 largest correction to disp= 3.071730e-06 in node 1417 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002215 time avg. forc= 0.000045 largest residual force= 0.000974 in node 1388 and dof 2 largest increment of disp= 1.032617e-05 largest correction to disp= 1.090355e-06 in node 1419 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002216 time avg. forc= 0.000045 largest residual force= 0.000053 in node 1388 and dof 2 largest increment of disp= 1.032617e-05 largest correction to disp= 2.483744e-07 in node 1144 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002216 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1388 and dof 2 largest increment of disp= 1.032617e-05 largest correction to disp= 9.325008e-09 in node 1387 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0062345, limit = 0.001, normalization = 0.000203086, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.107039, limit = 0.001, normalization = 1.50178, conv = false ---[precice]  iteration: 6 of 100, time-window: 3715, time: 0.0003714 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3715 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.714000e-04 actual step time=3.715000e-04 actual total time=3.715000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002091 time avg. forc= 0.000045 largest residual force= 0.042457 in node 1419 and dof 3 largest increment of disp= 1.038540e-05 largest correction to disp= 1.038540e-05 in node 1385 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002178 time avg. forc= 0.000045 largest residual force= 0.009197 in node 1419 and dof 3 largest increment of disp= 1.038540e-05 largest correction to disp= 3.573765e-06 in node 1417 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002205 time avg. forc= 0.000045 largest residual force= 0.004997 in node 1386 and dof 2 largest increment of disp= 1.038540e-05 largest correction to disp= 3.088724e-06 in node 1417 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002215 time avg. forc= 0.000045 largest residual force= 0.001001 in node 1388 and dof 2 largest increment of disp= 1.038540e-05 largest correction to disp= 1.104519e-06 in node 1419 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002216 time avg. forc= 0.000045 largest residual force= 0.000056 in node 1388 and dof 2 largest increment of disp= 1.038540e-05 largest correction to disp= 2.131523e-07 in node 1419 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002216 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1388 and dof 2 largest increment of disp= 1.038540e-05 largest correction to disp= 9.888555e-09 in node 1387 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00143538, limit = 0.001, normalization = 0.000203134, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00424498, limit = 0.001, normalization = 1.50346, conv = false ---[precice]  iteration: 7 of 100, time-window: 3715, time: 0.0003714 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3715 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.714000e-04 actual step time=3.715000e-04 actual total time=3.715000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002091 time avg. forc= 0.000045 largest residual force= 0.042445 in node 1419 and dof 3 largest increment of disp= 1.038762e-05 largest correction to disp= 1.038762e-05 in node 1385 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002178 time avg. forc= 0.000045 largest residual force= 0.009193 in node 1419 and dof 3 largest increment of disp= 1.038762e-05 largest correction to disp= 3.573630e-06 in node 1417 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002205 time avg. forc= 0.000045 largest residual force= 0.004996 in node 1386 and dof 2 largest increment of disp= 1.038762e-05 largest correction to disp= 3.087847e-06 in node 1417 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002215 time avg. forc= 0.000045 largest residual force= 0.001001 in node 1388 and dof 2 largest increment of disp= 1.038762e-05 largest correction to disp= 1.104162e-06 in node 1419 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002216 time avg. forc= 0.000045 largest residual force= 0.000056 in node 1388 and dof 2 largest increment of disp= 1.038762e-05 largest correction to disp= 2.131657e-07 in node 1419 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002216 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1388 and dof 2 largest increment of disp= 1.038762e-05 largest correction to disp= 9.897783e-09 in node 1387 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000521956, limit = 0.001, normalization = 0.000203144, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00260845, limit = 0.001, normalization = 1.50361, conv = false ---[precice]  iteration: 8 of 100, time-window: 3715, time: 0.0003714 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3715 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.714000e-04 actual step time=3.715000e-04 actual total time=3.715000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002091 time avg. forc= 0.000045 largest residual force= 0.042420 in node 1419 and dof 3 largest increment of disp= 1.038506e-05 largest correction to disp= 1.038506e-05 in node 1385 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002178 time avg. forc= 0.000045 largest residual force= 0.009187 in node 1419 and dof 3 largest increment of disp= 1.038506e-05 largest correction to disp= 3.573141e-06 in node 1417 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002205 time avg. forc= 0.000045 largest residual force= 0.004994 in node 1386 and dof 2 largest increment of disp= 1.038506e-05 largest correction to disp= 3.087070e-06 in node 1417 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002215 time avg. forc= 0.000045 largest residual force= 0.001000 in node 1388 and dof 2 largest increment of disp= 1.038506e-05 largest correction to disp= 1.103570e-06 in node 1419 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002216 time avg. forc= 0.000045 largest residual force= 0.000056 in node 1388 and dof 2 largest increment of disp= 1.038506e-05 largest correction to disp= 2.129279e-07 in node 1419 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002216 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1388 and dof 2 largest increment of disp= 1.038506e-05 largest correction to disp= 9.877637e-09 in node 1387 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000144742, limit = 0.001, normalization = 0.000203147, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00381606, limit = 0.001, normalization = 1.50479, conv = false ---[precice]  iteration: 9 of 100, time-window: 3715, time: 0.0003714 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3715 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.714000e-04 actual step time=3.715000e-04 actual total time=3.715000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002091 time avg. forc= 0.000045 largest residual force= 0.042425 in node 1419 and dof 3 largest increment of disp= 1.038575e-05 largest correction to disp= 1.038575e-05 in node 1385 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002178 time avg. forc= 0.000045 largest residual force= 0.009189 in node 1419 and dof 3 largest increment of disp= 1.038575e-05 largest correction to disp= 3.573331e-06 in node 1417 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002205 time avg. forc= 0.000045 largest residual force= 0.004995 in node 1386 and dof 2 largest increment of disp= 1.038575e-05 largest correction to disp= 3.087268e-06 in node 1417 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002215 time avg. forc= 0.000045 largest residual force= 0.001000 in node 1388 and dof 2 largest increment of disp= 1.038575e-05 largest correction to disp= 1.103684e-06 in node 1419 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002216 time avg. forc= 0.000045 largest residual force= 0.000056 in node 1388 and dof 2 largest increment of disp= 1.038575e-05 largest correction to disp= 2.129615e-07 in node 1419 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002216 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1388 and dof 2 largest increment of disp= 1.038575e-05 largest correction to disp= 9.880125e-09 in node 1387 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 6.93662e-05, limit = 0.001, normalization = 0.000203149, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00198207, limit = 0.001, normalization = 1.5044, conv = false ---[precice]  iteration: 10 of 100, time-window: 3715, time: 0.0003714 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3715 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.714000e-04 actual step time=3.715000e-04 actual total time=3.715000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002091 time avg. forc= 0.000045 largest residual force= 0.042430 in node 1419 and dof 3 largest increment of disp= 1.038638e-05 largest correction to disp= 1.038638e-05 in node 1385 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002178 time avg. forc= 0.000045 largest residual force= 0.009190 in node 1419 and dof 3 largest increment of disp= 1.038638e-05 largest correction to disp= 3.573459e-06 in node 1417 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002205 time avg. forc= 0.000045 largest residual force= 0.004995 in node 1386 and dof 2 largest increment of disp= 1.038638e-05 largest correction to disp= 3.087485e-06 in node 1417 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002215 time avg. forc= 0.000045 largest residual force= 0.001000 in node 1388 and dof 2 largest increment of disp= 1.038638e-05 largest correction to disp= 1.103810e-06 in node 1419 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002216 time avg. forc= 0.000045 largest residual force= 0.000056 in node 1388 and dof 2 largest increment of disp= 1.038638e-05 largest correction to disp= 2.130063e-07 in node 1419 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002216 time avg. forc= 0.000045 largest residual force= 0.000000 in node 1388 and dof 2 largest increment of disp= 1.038638e-05 largest correction to disp= 9.883684e-09 in node 1387 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 2.1281e-05, limit = 0.001, normalization = 0.00020315, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 6.3138e-05, limit = 0.001, normalization = 1.50463, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3716, time: 0.0003715 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3716 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.715000e-04 actual step time=3.716000e-04 actual total time=3.716000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002217 time avg. forc= 0.000046 largest residual force= 0.005489 in node 1098 and dof 3 largest increment of disp= 1.886035e-05 largest correction to disp= 1.590844e-05 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002220 time avg. forc= 0.000046 largest residual force= 0.001305 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 8.896323e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002221 time avg. forc= 0.000046 largest residual force= 0.000024 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 1.484857e-07 in node 1120 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002221 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 4.170250e-09 in node 1120 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.31065, limit = 0.001, normalization = 0.000197946, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.62278, limit = 0.001, normalization = 2.32153, conv = false ---[precice]  iteration: 2 of 100, time-window: 3716, time: 0.0003715 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3716 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.715000e-04 actual step time=3.716000e-04 actual total time=3.716000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002165 time avg. forc= 0.000046 largest residual force= 0.004888 in node 1098 and dof 3 largest increment of disp= 1.886035e-05 largest correction to disp= 4.848930e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002167 time avg. forc= 0.000046 largest residual force= 0.001134 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 8.152740e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002168 time avg. forc= 0.000046 largest residual force= 0.000054 in node 967 and dof 3 largest increment of disp= 1.886035e-05 largest correction to disp= 1.158406e-07 in node 1120 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002168 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 7.466225e-09 in node 967 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.086387, limit = 0.001, normalization = 0.000195657, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.95503, limit = 0.001, normalization = 1.95299, conv = false ---[precice]  iteration: 3 of 100, time-window: 3716, time: 0.0003715 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3716 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.715000e-04 actual step time=3.716000e-04 actual total time=3.716000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002133 time avg. forc= 0.000046 largest residual force= 0.004826 in node 1098 and dof 3 largest increment of disp= 1.886035e-05 largest correction to disp= 4.529761e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002136 time avg. forc= 0.000046 largest residual force= 0.001086 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 8.285217e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002137 time avg. forc= 0.000046 largest residual force= 0.000012 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 1.068361e-07 in node 1120 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002137 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1142 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 2.279860e-09 in node 1120 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0261368, limit = 0.001, normalization = 0.000196538, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.439455, limit = 0.001, normalization = 1.90312, conv = false ---[precice]  iteration: 4 of 100, time-window: 3716, time: 0.0003715 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3716 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.715000e-04 actual step time=3.716000e-04 actual total time=3.716000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002130 time avg. forc= 0.000046 largest residual force= 0.004777 in node 1098 and dof 3 largest increment of disp= 1.886035e-05 largest correction to disp= 4.548329e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002133 time avg. forc= 0.000046 largest residual force= 0.001097 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 8.107741e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002134 time avg. forc= 0.000046 largest residual force= 0.000012 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 1.063363e-07 in node 1120 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002134 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 2.257610e-09 in node 1120 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0155812, limit = 0.001, normalization = 0.000196805, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.098665, limit = 0.001, normalization = 1.91115, conv = false ---[precice]  iteration: 5 of 100, time-window: 3716, time: 0.0003715 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3716 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.715000e-04 actual step time=3.716000e-04 actual total time=3.716000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002131 time avg. forc= 0.000046 largest residual force= 0.004767 in node 1098 and dof 3 largest increment of disp= 1.886035e-05 largest correction to disp= 4.452695e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002133 time avg. forc= 0.000046 largest residual force= 0.009805 in node 642 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 3.636290e-06 in node 438 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002134 time avg. forc= 0.000046 largest residual force= 0.000014 in node 678 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 3.843262e-07 in node 932 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002134 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1063 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 2.406882e-09 in node 1099 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00724763, limit = 0.001, normalization = 0.00019685, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0163151, limit = 0.001, normalization = 1.90582, conv = false ---[precice]  iteration: 6 of 100, time-window: 3716, time: 0.0003715 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3716 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.715000e-04 actual step time=3.716000e-04 actual total time=3.716000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002130 time avg. forc= 0.000046 largest residual force= 0.004788 in node 1098 and dof 3 largest increment of disp= 1.886035e-05 largest correction to disp= 4.505227e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002133 time avg. forc= 0.000046 largest residual force= 0.001098 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 8.113697e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002134 time avg. forc= 0.000046 largest residual force= 0.000012 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 1.066716e-07 in node 1120 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002134 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 2.262229e-09 in node 1120 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00143771, limit = 0.001, normalization = 0.000196821, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0213192, limit = 0.001, normalization = 1.90594, conv = false ---[precice]  iteration: 7 of 100, time-window: 3716, time: 0.0003715 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3716 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.715000e-04 actual step time=3.716000e-04 actual total time=3.716000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002130 time avg. forc= 0.000046 largest residual force= 0.004788 in node 1098 and dof 3 largest increment of disp= 1.886035e-05 largest correction to disp= 4.479631e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002132 time avg. forc= 0.000046 largest residual force= 0.001098 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 8.117277e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002133 time avg. forc= 0.000046 largest residual force= 0.000012 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 1.065699e-07 in node 1120 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002133 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 2.259111e-09 in node 1120 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0011025, limit = 0.001, normalization = 0.000196852, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00281074, limit = 0.001, normalization = 1.90612, conv = false ---[precice]  iteration: 8 of 100, time-window: 3716, time: 0.0003715 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3716 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.715000e-04 actual step time=3.716000e-04 actual total time=3.716000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002130 time avg. forc= 0.000046 largest residual force= 0.004787 in node 1098 and dof 3 largest increment of disp= 1.886035e-05 largest correction to disp= 4.480208e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002132 time avg. forc= 0.000046 largest residual force= 0.001098 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 8.117200e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002133 time avg. forc= 0.000046 largest residual force= 0.000012 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 1.065378e-07 in node 1120 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002133 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 2.258115e-09 in node 1120 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000355849, limit = 0.001, normalization = 0.000196852, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00273631, limit = 0.001, normalization = 1.90606, conv = false ---[precice]  iteration: 9 of 100, time-window: 3716, time: 0.0003715 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3716 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.715000e-04 actual step time=3.716000e-04 actual total time=3.716000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002130 time avg. forc= 0.000046 largest residual force= 0.004787 in node 1098 and dof 3 largest increment of disp= 1.886035e-05 largest correction to disp= 4.485534e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002132 time avg. forc= 0.000046 largest residual force= 0.001098 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 8.116339e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002133 time avg. forc= 0.000046 largest residual force= 0.000012 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 1.065348e-07 in node 1120 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002133 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 2.257771e-09 in node 1120 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 9.77252e-05, limit = 0.001, normalization = 0.00019685, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0011451, limit = 0.001, normalization = 1.90588, conv = false ---[precice]  iteration: 10 of 100, time-window: 3716, time: 0.0003715 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3716 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.715000e-04 actual step time=3.716000e-04 actual total time=3.716000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002130 time avg. forc= 0.000046 largest residual force= 0.004787 in node 1098 and dof 3 largest increment of disp= 1.886035e-05 largest correction to disp= 4.484148e-06 in node 1384 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002132 time avg. forc= 0.000046 largest residual force= 0.001097 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 8.119765e-07 in node 1098 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002133 time avg. forc= 0.000046 largest residual force= 0.000012 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 1.069985e-07 in node 1120 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002133 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 1.886035e-05 largest correction to disp= 2.259791e-09 in node 1120 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 6.20383e-05, limit = 0.001, normalization = 0.00019685, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 5.96027e-05, limit = 0.001, normalization = 1.90593, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3717, time: 0.0003716 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3717 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.716000e-04 actual step time=3.717000e-04 actual total time=3.717000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001616 time avg. forc= 0.000046 largest residual force= 0.002114 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 1.492731e-05 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001616 time avg. forc= 0.000046 largest residual force= 0.000098 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 2.901847e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001616 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 5.837266e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.26935, limit = 0.001, normalization = 0.000203303, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.09145, limit = 0.001, normalization = 0.864461, conv = false ---[precice]  iteration: 2 of 100, time-window: 3717, time: 0.0003716 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3717 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.716000e-04 actual step time=3.717000e-04 actual total time=3.717000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001646 time avg. forc= 0.000046 largest residual force= 0.001639 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 1.107254e-05 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001647 time avg. forc= 0.000046 largest residual force= 0.000072 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 2.611254e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001647 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 5.291098e-09 in node 1076 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0444446, limit = 0.001, normalization = 0.000210196, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.16227, limit = 0.001, normalization = 2.67916, conv = false ---[precice]  iteration: 3 of 100, time-window: 3717, time: 0.0003716 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3717 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.716000e-04 actual step time=3.717000e-04 actual total time=3.717000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001637 time avg. forc= 0.000046 largest residual force= 0.001739 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 1.014462e-05 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001638 time avg. forc= 0.000046 largest residual force= 0.000086 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 2.880079e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001638 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 5.452602e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0192378, limit = 0.001, normalization = 0.000211692, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.347587, limit = 0.001, normalization = 2.6658, conv = false ---[precice]  iteration: 4 of 100, time-window: 3717, time: 0.0003716 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3717 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.716000e-04 actual step time=3.717000e-04 actual total time=3.717000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001637 time avg. forc= 0.000046 largest residual force= 0.001750 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 9.736960e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001638 time avg. forc= 0.000046 largest residual force= 0.000088 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 2.886246e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001638 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 5.478964e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0107399, limit = 0.001, normalization = 0.000212179, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0618845, limit = 0.001, normalization = 2.58199, conv = false ---[precice]  iteration: 5 of 100, time-window: 3717, time: 0.0003716 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3717 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.716000e-04 actual step time=3.717000e-04 actual total time=3.717000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001637 time avg. forc= 0.000046 largest residual force= 0.001757 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 9.595678e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001638 time avg. forc= 0.000046 largest residual force= 0.000089 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 2.905313e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001638 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 5.551767e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0050054, limit = 0.001, normalization = 0.000212443, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0108205, limit = 0.001, normalization = 2.58194, conv = false ---[precice]  iteration: 6 of 100, time-window: 3717, time: 0.0003716 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3717 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.716000e-04 actual step time=3.717000e-04 actual total time=3.717000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001637 time avg. forc= 0.000046 largest residual force= 0.001757 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 9.617695e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001638 time avg. forc= 0.000046 largest residual force= 0.000089 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 2.910433e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001638 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 5.550155e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00184867, limit = 0.001, normalization = 0.00021242, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0154637, limit = 0.001, normalization = 2.58012, conv = false ---[precice]  iteration: 7 of 100, time-window: 3717, time: 0.0003716 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3717 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.716000e-04 actual step time=3.717000e-04 actual total time=3.717000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001637 time avg. forc= 0.000046 largest residual force= 0.001756 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 9.663755e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001638 time avg. forc= 0.000046 largest residual force= 0.000089 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 2.903043e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001638 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 5.537231e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00097381, limit = 0.001, normalization = 0.000212338, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00503771, limit = 0.001, normalization = 2.5818, conv = false ---[precice]  iteration: 8 of 100, time-window: 3717, time: 0.0003716 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3717 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.716000e-04 actual step time=3.717000e-04 actual total time=3.717000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001637 time avg. forc= 0.000046 largest residual force= 0.001756 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 9.665710e-06 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001638 time avg. forc= 0.000046 largest residual force= 0.000089 in node 1186 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 2.902424e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001638 time avg. forc= 0.000046 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.190312e-05 largest correction to disp= 5.535463e-09 in node 1183 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000437405, limit = 0.001, normalization = 0.00021233, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00045719, limit = 0.001, normalization = 2.58036, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3718, time: 0.0003717 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3718 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.717000e-04 actual step time=3.718000e-04 actual total time=3.718000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002594 time avg. forc= 0.000047 largest residual force= 0.053828 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.049325e-05 in node 1082 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002643 time avg. forc= 0.000047 largest residual force= 0.010451 in node 1082 and dof 1 largest increment of disp= 1.558717e-05 largest correction to disp= 4.822455e-06 in node 1108 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002674 time avg. forc= 0.000047 largest residual force= 0.007442 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 3.592985e-06 in node 1318 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002685 time avg. forc= 0.000047 largest residual force= 0.002568 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.935276e-06 in node 1318 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002687 time avg. forc= 0.000047 largest residual force= 0.000345 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 5.856768e-07 in node 1318 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002688 time avg. forc= 0.000047 largest residual force= 0.000004 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 7.101246e-08 in node 1212 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002688 time avg. forc= 0.000047 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 9.298252e-10 in node 1212 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.254629, limit = 0.001, normalization = 0.000207879, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.20101, limit = 0.001, normalization = 2.09633, conv = false ---[precice]  iteration: 2 of 100, time-window: 3718, time: 0.0003717 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3718 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.717000e-04 actual step time=3.718000e-04 actual total time=3.718000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002526 time avg. forc= 0.000047 largest residual force= 0.067363 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.171061e-05 in node 1108 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002550 time avg. forc= 0.000047 largest residual force= 0.013835 in node 1082 and dof 1 largest increment of disp= 1.558717e-05 largest correction to disp= 5.226878e-06 in node 1108 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002589 time avg. forc= 0.000047 largest residual force= 0.008649 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 3.926569e-06 in node 1318 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002603 time avg. forc= 0.000047 largest residual force= 0.003169 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 2.245746e-06 in node 1318 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002607 time avg. forc= 0.000047 largest residual force= 0.000508 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 7.515192e-07 in node 1318 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002607 time avg. forc= 0.000047 largest residual force= 0.000008 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.014852e-07 in node 1212 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002607 time avg. forc= 0.000047 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.863164e-09 in node 1212 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.117351, limit = 0.001, normalization = 0.000197461, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.1831, limit = 0.001, normalization = 1.28602, conv = false ---[precice]  iteration: 3 of 100, time-window: 3718, time: 0.0003717 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3718 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.717000e-04 actual step time=3.718000e-04 actual total time=3.718000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002518 time avg. forc= 0.000047 largest residual force= 0.065260 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.141609e-05 in node 1108 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002547 time avg. forc= 0.000047 largest residual force= 0.013465 in node 1082 and dof 1 largest increment of disp= 1.558717e-05 largest correction to disp= 5.084334e-06 in node 1108 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002583 time avg. forc= 0.000047 largest residual force= 0.008433 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 3.792742e-06 in node 1108 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002597 time avg. forc= 0.000047 largest residual force= 0.003059 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 2.164926e-06 in node 1318 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002601 time avg. forc= 0.000047 largest residual force= 0.000488 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 7.267509e-07 in node 1318 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002601 time avg. forc= 0.000047 largest residual force= 0.000007 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 9.865524e-08 in node 1212 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002601 time avg. forc= 0.000047 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.736981e-09 in node 1212 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0262288, limit = 0.001, normalization = 0.000196761, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.705958, limit = 0.001, normalization = 1.01584, conv = false ---[precice]  iteration: 4 of 100, time-window: 3718, time: 0.0003717 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3718 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.717000e-04 actual step time=3.718000e-04 actual total time=3.718000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002515 time avg. forc= 0.000047 largest residual force= 0.063797 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.142739e-05 in node 1108 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002548 time avg. forc= 0.000047 largest residual force= 0.013109 in node 1082 and dof 1 largest increment of disp= 1.558717e-05 largest correction to disp= 5.113552e-06 in node 1108 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002585 time avg. forc= 0.000047 largest residual force= 0.008321 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 3.786507e-06 in node 1108 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002598 time avg. forc= 0.000047 largest residual force= 0.002987 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 2.141896e-06 in node 1318 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002602 time avg. forc= 0.000047 largest residual force= 0.000461 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 7.073722e-07 in node 1318 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002602 time avg. forc= 0.000047 largest residual force= 0.000006 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 9.359681e-08 in node 1212 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002602 time avg. forc= 0.000047 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.577740e-09 in node 1212 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00746527, limit = 0.001, normalization = 0.000196614, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.141097, limit = 0.001, normalization = 0.985094, conv = false ---[precice]  iteration: 5 of 100, time-window: 3718, time: 0.0003717 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3718 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.717000e-04 actual step time=3.718000e-04 actual total time=3.718000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002515 time avg. forc= 0.000047 largest residual force= 0.063625 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.141830e-05 in node 1108 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002549 time avg. forc= 0.000047 largest residual force= 0.013015 in node 1082 and dof 1 largest increment of disp= 1.558717e-05 largest correction to disp= 5.118147e-06 in node 1108 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002585 time avg. forc= 0.000047 largest residual force= 0.008285 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 3.806043e-06 in node 1318 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002599 time avg. forc= 0.000047 largest residual force= 0.003001 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 2.181719e-06 in node 1108 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002602 time avg. forc= 0.000047 largest residual force= 0.000452 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 7.068786e-07 in node 1318 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002602 time avg. forc= 0.000047 largest residual force= 0.000006 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 9.015900e-08 in node 1212 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002602 time avg. forc= 0.000047 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.500933e-09 in node 1212 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00394559, limit = 0.001, normalization = 0.000196633, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0166677, limit = 0.001, normalization = 0.950429, conv = false ---[precice]  iteration: 6 of 100, time-window: 3718, time: 0.0003717 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3718 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.717000e-04 actual step time=3.718000e-04 actual total time=3.718000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002515 time avg. forc= 0.000047 largest residual force= 0.063558 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.140105e-05 in node 1108 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002549 time avg. forc= 0.000047 largest residual force= 0.013011 in node 1082 and dof 1 largest increment of disp= 1.558717e-05 largest correction to disp= 5.108865e-06 in node 1108 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002585 time avg. forc= 0.000047 largest residual force= 0.008300 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 3.783747e-06 in node 1108 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002599 time avg. forc= 0.000047 largest residual force= 0.002975 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 2.143900e-06 in node 1318 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002602 time avg. forc= 0.000047 largest residual force= 0.000456 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 7.053594e-07 in node 1318 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002602 time avg. forc= 0.000047 largest residual force= 0.000006 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 9.291035e-08 in node 1212 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002602 time avg. forc= 0.000047 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.560742e-09 in node 1212 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00256693, limit = 0.001, normalization = 0.000196622, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0203573, limit = 0.001, normalization = 0.968588, conv = false ---[precice]  iteration: 7 of 100, time-window: 3718, time: 0.0003717 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3718 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.717000e-04 actual step time=3.718000e-04 actual total time=3.718000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002515 time avg. forc= 0.000047 largest residual force= 0.063577 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.140273e-05 in node 1108 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002549 time avg. forc= 0.000047 largest residual force= 0.013016 in node 1082 and dof 1 largest increment of disp= 1.558717e-05 largest correction to disp= 5.109289e-06 in node 1108 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002585 time avg. forc= 0.000047 largest residual force= 0.008302 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 3.784213e-06 in node 1108 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002599 time avg. forc= 0.000047 largest residual force= 0.002976 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 2.144527e-06 in node 1318 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002602 time avg. forc= 0.000047 largest residual force= 0.000456 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 7.056307e-07 in node 1318 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002602 time avg. forc= 0.000047 largest residual force= 0.000006 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 9.296604e-08 in node 1212 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002602 time avg. forc= 0.000047 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.562508e-09 in node 1212 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00106884, limit = 0.001, normalization = 0.000196622, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0118417, limit = 0.001, normalization = 0.964651, conv = false ---[precice]  iteration: 8 of 100, time-window: 3718, time: 0.0003717 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3718 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.717000e-04 actual step time=3.718000e-04 actual total time=3.718000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002515 time avg. forc= 0.000047 largest residual force= 0.063584 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.140340e-05 in node 1108 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002549 time avg. forc= 0.000047 largest residual force= 0.013018 in node 1082 and dof 1 largest increment of disp= 1.558717e-05 largest correction to disp= 5.109497e-06 in node 1108 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002585 time avg. forc= 0.000047 largest residual force= 0.008303 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 3.784578e-06 in node 1108 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002599 time avg. forc= 0.000047 largest residual force= 0.002976 in node 1186 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 2.144803e-06 in node 1318 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002602 time avg. forc= 0.000047 largest residual force= 0.000456 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 7.057472e-07 in node 1318 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002602 time avg. forc= 0.000047 largest residual force= 0.000006 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 9.298020e-08 in node 1212 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002602 time avg. forc= 0.000047 largest residual force= 0.000000 in node 1255 and dof 2 largest increment of disp= 1.558717e-05 largest correction to disp= 1.563091e-09 in node 1212 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000253704, limit = 0.001, normalization = 0.000196623, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000788445, limit = 0.001, normalization = 0.970121, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3719, time: 0.0003718 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3719 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.718000e-04 actual step time=3.719000e-04 actual total time=3.719000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001502 time avg. forc= 0.000048 largest residual force= 0.002742 in node 1279 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 1.982597e-05 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001502 time avg. forc= 0.000048 largest residual force= 0.000048 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 4.117295e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001502 time avg. forc= 0.000048 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 4.418407e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.33814, limit = 0.001, normalization = 0.000197247, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.18415, limit = 0.001, normalization = 1.99143, conv = false ---[precice]  iteration: 2 of 100, time-window: 3719, time: 0.0003718 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3719 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.718000e-04 actual step time=3.719000e-04 actual total time=3.719000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001502 time avg. forc= 0.000048 largest residual force= 0.002221 in node 1354 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 8.221077e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001503 time avg. forc= 0.000048 largest residual force= 0.000053 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 4.246193e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001503 time avg. forc= 0.000048 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 4.808496e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0515943, limit = 0.001, normalization = 0.000209193, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.11266, limit = 0.001, normalization = 3.37495, conv = false ---[precice]  iteration: 3 of 100, time-window: 3719, time: 0.0003718 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3719 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.718000e-04 actual step time=3.719000e-04 actual total time=3.719000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.002222 in node 1354 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 8.991843e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.000046 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 4.078329e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 3.864697e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0169579, limit = 0.001, normalization = 0.000208978, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.305736, limit = 0.001, normalization = 2.99743, conv = false ---[precice]  iteration: 4 of 100, time-window: 3719, time: 0.0003718 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3719 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.718000e-04 actual step time=3.719000e-04 actual total time=3.719000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.002206 in node 1354 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 8.653730e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.000040 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 3.615004e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 3.447351e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00788272, limit = 0.001, normalization = 0.000209503, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0780477, limit = 0.001, normalization = 2.92519, conv = false ---[precice]  iteration: 5 of 100, time-window: 3719, time: 0.0003718 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3719 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.718000e-04 actual step time=3.719000e-04 actual total time=3.719000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001496 time avg. forc= 0.000047 largest residual force= 0.002207 in node 1354 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 8.458705e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.000040 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 3.674736e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 3.520583e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00659572, limit = 0.001, normalization = 0.000209786, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00923876, limit = 0.001, normalization = 2.93253, conv = false ---[precice]  iteration: 6 of 100, time-window: 3719, time: 0.0003718 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3719 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.718000e-04 actual step time=3.719000e-04 actual total time=3.719000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001496 time avg. forc= 0.000047 largest residual force= 0.002207 in node 1354 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 8.493359e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.000040 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 3.675182e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 3.497064e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00374337, limit = 0.001, normalization = 0.000209726, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00744507, limit = 0.001, normalization = 2.92832, conv = false ---[precice]  iteration: 7 of 100, time-window: 3719, time: 0.0003718 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3719 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.718000e-04 actual step time=3.719000e-04 actual total time=3.719000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001496 time avg. forc= 0.000047 largest residual force= 0.002207 in node 1354 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 8.434755e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.000040 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 3.691730e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 3.504723e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00112594, limit = 0.001, normalization = 0.000209775, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00633112, limit = 0.001, normalization = 2.91637, conv = false ---[precice]  iteration: 8 of 100, time-window: 3719, time: 0.0003718 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3719 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.718000e-04 actual step time=3.719000e-04 actual total time=3.719000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001496 time avg. forc= 0.000047 largest residual force= 0.002207 in node 1354 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 8.422370e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.000041 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 3.707399e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 3.527122e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000497138, limit = 0.001, normalization = 0.000209784, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00120703, limit = 0.001, normalization = 2.91501, conv = false ---[precice]  iteration: 9 of 100, time-window: 3719, time: 0.0003718 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3719 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.718000e-04 actual step time=3.719000e-04 actual total time=3.719000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001496 time avg. forc= 0.000047 largest residual force= 0.002207 in node 1354 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 8.422147e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.000041 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 3.708257e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001495 time avg. forc= 0.000047 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.711869e-05 largest correction to disp= 3.527708e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000183236, limit = 0.001, normalization = 0.000209789, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000469667, limit = 0.001, normalization = 2.91352, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3720, time: 0.0003719 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3720 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.719000e-04 actual step time=3.720000e-04 actual total time=3.720000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.005785 time avg. forc= 0.000049 largest residual force= 1.420295 in node 1416 and dof 1 largest increment of disp= 2.630165e-05 largest correction to disp= 2.630165e-05 in node 1206 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.003053 time avg. forc= 0.000048 largest residual force= 0.334144 in node 1206 and dof 1 largest increment of disp= 2.630165e-05 largest correction to disp= 1.619294e-05 in node 1207 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002425 time avg. forc= 0.000048 largest residual force= 0.103865 in node 1206 and dof 1 largest increment of disp= 2.630165e-05 largest correction to disp= 9.797316e-06 in node 1206 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002339 time avg. forc= 0.000048 largest residual force= 0.037934 in node 1416 and dof 1 largest increment of disp= 2.630165e-05 largest correction to disp= 6.164001e-06 in node 1352 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002371 time avg. forc= 0.000048 largest residual force= 0.014737 in node 1416 and dof 1 largest increment of disp= 2.630165e-05 largest correction to disp= 4.320527e-06 in node 1310 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002407 time avg. forc= 0.000048 largest residual force= 0.007533 in node 1353 and dof 2 largest increment of disp= 2.630165e-05 largest correction to disp= 3.114375e-06 in node 1310 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002421 time avg. forc= 0.000048 largest residual force= 0.004003 in node 1353 and dof 2 largest increment of disp= 2.630165e-05 largest correction to disp= 2.114262e-06 in node 1206 and dof 1 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002425 time avg. forc= 0.000048 largest residual force= 0.001015 in node 1277 and dof 2 largest increment of disp= 2.630165e-05 largest correction to disp= 9.853065e-07 in node 1173 and dof 1 estimated number of iterations till convergence = 15 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002425 time avg. forc= 0.000048 largest residual force= 0.000036 in node 1277 and dof 2 largest increment of disp= 2.630165e-05 largest correction to disp= 1.673909e-07 in node 1276 and dof 1 estimated number of iterations till convergence = 11 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002425 time avg. forc= 0.000048 largest residual force= 0.000000 in node 1277 and dof 2 largest increment of disp= 2.630165e-05 largest correction to disp= 5.804831e-09 in node 1276 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.227683, limit = 0.001, normalization = 0.000211135, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 3.40782, limit = 0.001, normalization = 1.15039, conv = false ---[precice]  iteration: 2 of 100, time-window: 3720, time: 0.0003719 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3720 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.719000e-04 actual step time=3.720000e-04 actual total time=3.720000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.006131 time avg. forc= 0.000049 largest residual force= 1.646452 in node 1416 and dof 1 largest increment of disp= 2.957335e-05 largest correction to disp= 2.957335e-05 in node 1206 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.003145 time avg. forc= 0.000048 largest residual force= 0.385236 in node 1416 and dof 1 largest increment of disp= 2.957335e-05 largest correction to disp= 1.416525e-05 in node 1207 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002441 time avg. forc= 0.000048 largest residual force= 0.119739 in node 1416 and dof 1 largest increment of disp= 2.957335e-05 largest correction to disp= 9.544713e-06 in node 1206 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002308 time avg. forc= 0.000048 largest residual force= 0.043598 in node 1416 and dof 1 largest increment of disp= 2.957335e-05 largest correction to disp= 6.470988e-06 in node 1352 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002329 time avg. forc= 0.000048 largest residual force= 0.016922 in node 1416 and dof 1 largest increment of disp= 2.957335e-05 largest correction to disp= 4.488187e-06 in node 1206 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002365 time avg. forc= 0.000048 largest residual force= 0.008325 in node 1353 and dof 2 largest increment of disp= 2.957335e-05 largest correction to disp= 3.291256e-06 in node 1206 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002381 time avg. forc= 0.000048 largest residual force= 0.004437 in node 1353 and dof 2 largest increment of disp= 2.957335e-05 largest correction to disp= 2.321051e-06 in node 1206 and dof 1 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002385 time avg. forc= 0.000048 largest residual force= 0.001158 in node 1353 and dof 2 largest increment of disp= 2.957335e-05 largest correction to disp= 1.082681e-06 in node 1173 and dof 1 estimated number of iterations till convergence = 15 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002386 time avg. forc= 0.000048 largest residual force= 0.000049 in node 1277 and dof 2 largest increment of disp= 2.957335e-05 largest correction to disp= 1.924297e-07 in node 1276 and dof 1 estimated number of iterations till convergence = 11 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002386 time avg. forc= 0.000048 largest residual force= 0.000000 in node 1277 and dof 2 largest increment of disp= 2.957335e-05 largest correction to disp= 7.987893e-09 in node 1276 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0825099, limit = 0.001, normalization = 0.000205762, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.431571, limit = 0.001, normalization = 1.71082, conv = false ---[precice]  iteration: 3 of 100, time-window: 3720, time: 0.0003719 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3720 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.719000e-04 actual step time=3.720000e-04 actual total time=3.720000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.005925 time avg. forc= 0.000049 largest residual force= 1.497063 in node 1416 and dof 1 largest increment of disp= 2.718154e-05 largest correction to disp= 2.718154e-05 in node 1206 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.003077 time avg. forc= 0.000048 largest residual force= 0.350663 in node 1416 and dof 1 largest increment of disp= 2.718154e-05 largest correction to disp= 1.604549e-05 in node 1207 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002408 time avg. forc= 0.000048 largest residual force= 0.108838 in node 1416 and dof 1 largest increment of disp= 2.718154e-05 largest correction to disp= 9.907791e-06 in node 1206 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002303 time avg. forc= 0.000048 largest residual force= 0.039939 in node 1416 and dof 1 largest increment of disp= 2.718154e-05 largest correction to disp= 6.286040e-06 in node 1352 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002331 time avg. forc= 0.000048 largest residual force= 0.015512 in node 1416 and dof 1 largest increment of disp= 2.718154e-05 largest correction to disp= 4.333241e-06 in node 1310 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002367 time avg. forc= 0.000048 largest residual force= 0.007889 in node 1353 and dof 2 largest increment of disp= 2.718154e-05 largest correction to disp= 3.105362e-06 in node 1310 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002382 time avg. forc= 0.000048 largest residual force= 0.004210 in node 1353 and dof 2 largest increment of disp= 2.718154e-05 largest correction to disp= 2.158313e-06 in node 1206 and dof 1 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002386 time avg. forc= 0.000048 largest residual force= 0.001070 in node 1353 and dof 2 largest increment of disp= 2.718154e-05 largest correction to disp= 1.015849e-06 in node 1173 and dof 1 estimated number of iterations till convergence = 15 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002386 time avg. forc= 0.000048 largest residual force= 0.000039 in node 1277 and dof 2 largest increment of disp= 2.718154e-05 largest correction to disp= 1.728836e-07 in node 1276 and dof 1 estimated number of iterations till convergence = 11 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002386 time avg. forc= 0.000048 largest residual force= 0.000000 in node 1277 and dof 2 largest increment of disp= 2.718154e-05 largest correction to disp= 6.246503e-09 in node 1276 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.024044, limit = 0.001, normalization = 0.00020604, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0866781, limit = 0.001, normalization = 1.78232, conv = false ---[precice]  iteration: 4 of 100, time-window: 3720, time: 0.0003719 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3720 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.719000e-04 actual step time=3.720000e-04 actual total time=3.720000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.005913 time avg. forc= 0.000049 largest residual force= 1.483238 in node 1416 and dof 1 largest increment of disp= 2.696603e-05 largest correction to disp= 2.696603e-05 in node 1206 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.003071 time avg. forc= 0.000048 largest residual force= 0.348338 in node 1206 and dof 1 largest increment of disp= 2.696603e-05 largest correction to disp= 1.620553e-05 in node 1207 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002406 time avg. forc= 0.000048 largest residual force= 0.108124 in node 1206 and dof 1 largest increment of disp= 2.696603e-05 largest correction to disp= 9.922188e-06 in node 1206 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002303 time avg. forc= 0.000048 largest residual force= 0.039595 in node 1416 and dof 1 largest increment of disp= 2.696603e-05 largest correction to disp= 6.276500e-06 in node 1352 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002331 time avg. forc= 0.000048 largest residual force= 0.015379 in node 1416 and dof 1 largest increment of disp= 2.696603e-05 largest correction to disp= 4.348505e-06 in node 1310 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002367 time avg. forc= 0.000048 largest residual force= 0.007858 in node 1353 and dof 2 largest increment of disp= 2.696603e-05 largest correction to disp= 3.119919e-06 in node 1310 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002382 time avg. forc= 0.000048 largest residual force= 0.004199 in node 1353 and dof 2 largest increment of disp= 2.696603e-05 largest correction to disp= 2.144222e-06 in node 1206 and dof 1 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002386 time avg. forc= 0.000048 largest residual force= 0.001064 in node 1353 and dof 2 largest increment of disp= 2.696603e-05 largest correction to disp= 1.008728e-06 in node 1173 and dof 1 estimated number of iterations till convergence = 15 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002387 time avg. forc= 0.000048 largest residual force= 0.000038 in node 1277 and dof 2 largest increment of disp= 2.696603e-05 largest correction to disp= 1.705626e-07 in node 1276 and dof 1 estimated number of iterations till convergence = 11 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002387 time avg. forc= 0.000048 largest residual force= 0.000000 in node 1277 and dof 2 largest increment of disp= 2.696603e-05 largest correction to disp= 6.077416e-09 in node 1276 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00879136, limit = 0.001, normalization = 0.000206337, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0224217, limit = 0.001, normalization = 1.72544, conv = false ---[precice]  iteration: 5 of 100, time-window: 3720, time: 0.0003719 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3720 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.719000e-04 actual step time=3.720000e-04 actual total time=3.720000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.005910 time avg. forc= 0.000049 largest residual force= 1.482742 in node 1416 and dof 1 largest increment of disp= 2.692378e-05 largest correction to disp= 2.692378e-05 in node 1206 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.003070 time avg. forc= 0.000048 largest residual force= 0.347679 in node 1206 and dof 1 largest increment of disp= 2.692378e-05 largest correction to disp= 1.620459e-05 in node 1207 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002405 time avg. forc= 0.000048 largest residual force= 0.107926 in node 1206 and dof 1 largest increment of disp= 2.692378e-05 largest correction to disp= 9.911861e-06 in node 1206 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002303 time avg. forc= 0.000048 largest residual force= 0.039584 in node 1416 and dof 1 largest increment of disp= 2.692378e-05 largest correction to disp= 6.270157e-06 in node 1352 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002331 time avg. forc= 0.000048 largest residual force= 0.015376 in node 1416 and dof 1 largest increment of disp= 2.692378e-05 largest correction to disp= 4.345806e-06 in node 1310 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002368 time avg. forc= 0.000048 largest residual force= 0.007852 in node 1353 and dof 2 largest increment of disp= 2.692378e-05 largest correction to disp= 3.117390e-06 in node 1310 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002383 time avg. forc= 0.000048 largest residual force= 0.004194 in node 1353 and dof 2 largest increment of disp= 2.692378e-05 largest correction to disp= 2.140790e-06 in node 1206 and dof 1 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002386 time avg. forc= 0.000048 largest residual force= 0.001062 in node 1353 and dof 2 largest increment of disp= 2.692378e-05 largest correction to disp= 1.006877e-06 in node 1173 and dof 1 estimated number of iterations till convergence = 15 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002387 time avg. forc= 0.000048 largest residual force= 0.000038 in node 1277 and dof 2 largest increment of disp= 2.692378e-05 largest correction to disp= 1.702608e-07 in node 1276 and dof 1 estimated number of iterations till convergence = 11 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002387 time avg. forc= 0.000048 largest residual force= 0.000000 in node 1277 and dof 2 largest increment of disp= 2.692378e-05 largest correction to disp= 6.061046e-09 in node 1276 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00210818, limit = 0.001, normalization = 0.000206462, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0243395, limit = 0.001, normalization = 1.70609, conv = false ---[precice]  iteration: 6 of 100, time-window: 3720, time: 0.0003719 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3720 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.719000e-04 actual step time=3.720000e-04 actual total time=3.720000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.005915 time avg. forc= 0.000049 largest residual force= 1.485262 in node 1416 and dof 1 largest increment of disp= 2.693371e-05 largest correction to disp= 2.693371e-05 in node 1206 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.003072 time avg. forc= 0.000048 largest residual force= 0.348184 in node 1206 and dof 1 largest increment of disp= 2.693371e-05 largest correction to disp= 1.621878e-05 in node 1207 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002406 time avg. forc= 0.000048 largest residual force= 0.108079 in node 1206 and dof 1 largest increment of disp= 2.693371e-05 largest correction to disp= 9.917503e-06 in node 1206 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002303 time avg. forc= 0.000048 largest residual force= 0.039647 in node 1416 and dof 1 largest increment of disp= 2.693371e-05 largest correction to disp= 6.274334e-06 in node 1352 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002331 time avg. forc= 0.000048 largest residual force= 0.015399 in node 1416 and dof 1 largest increment of disp= 2.693371e-05 largest correction to disp= 4.348220e-06 in node 1310 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002368 time avg. forc= 0.000048 largest residual force= 0.007859 in node 1353 and dof 2 largest increment of disp= 2.693371e-05 largest correction to disp= 3.119377e-06 in node 1310 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002383 time avg. forc= 0.000048 largest residual force= 0.004199 in node 1353 and dof 2 largest increment of disp= 2.693371e-05 largest correction to disp= 2.141762e-06 in node 1206 and dof 1 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002386 time avg. forc= 0.000048 largest residual force= 0.001065 in node 1353 and dof 2 largest increment of disp= 2.693371e-05 largest correction to disp= 1.007720e-06 in node 1173 and dof 1 estimated number of iterations till convergence = 15 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002387 time avg. forc= 0.000048 largest residual force= 0.000038 in node 1277 and dof 2 largest increment of disp= 2.693371e-05 largest correction to disp= 1.706495e-07 in node 1276 and dof 1 estimated number of iterations till convergence = 11 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002387 time avg. forc= 0.000048 largest residual force= 0.000000 in node 1277 and dof 2 largest increment of disp= 2.693371e-05 largest correction to disp= 6.090389e-09 in node 1276 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00189929, limit = 0.001, normalization = 0.000206483, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00181144, limit = 0.001, normalization = 1.70936, conv = false ---[precice]  iteration: 7 of 100, time-window: 3720, time: 0.0003719 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3720 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.719000e-04 actual step time=3.720000e-04 actual total time=3.720000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.005917 time avg. forc= 0.000049 largest residual force= 1.486167 in node 1416 and dof 1 largest increment of disp= 2.693440e-05 largest correction to disp= 2.693440e-05 in node 1206 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.003073 time avg. forc= 0.000048 largest residual force= 0.348331 in node 1206 and dof 1 largest increment of disp= 2.693440e-05 largest correction to disp= 1.622488e-05 in node 1207 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002406 time avg. forc= 0.000048 largest residual force= 0.108122 in node 1206 and dof 1 largest increment of disp= 2.693440e-05 largest correction to disp= 9.919250e-06 in node 1206 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002303 time avg. forc= 0.000048 largest residual force= 0.039670 in node 1416 and dof 1 largest increment of disp= 2.693440e-05 largest correction to disp= 6.275409e-06 in node 1352 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002331 time avg. forc= 0.000048 largest residual force= 0.015407 in node 1416 and dof 1 largest increment of disp= 2.693440e-05 largest correction to disp= 4.348900e-06 in node 1310 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002368 time avg. forc= 0.000048 largest residual force= 0.007861 in node 1353 and dof 2 largest increment of disp= 2.693440e-05 largest correction to disp= 3.119936e-06 in node 1310 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002383 time avg. forc= 0.000048 largest residual force= 0.004201 in node 1353 and dof 2 largest increment of disp= 2.693440e-05 largest correction to disp= 2.141807e-06 in node 1206 and dof 1 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002386 time avg. forc= 0.000048 largest residual force= 0.001066 in node 1353 and dof 2 largest increment of disp= 2.693440e-05 largest correction to disp= 1.007860e-06 in node 1173 and dof 1 estimated number of iterations till convergence = 15 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002387 time avg. forc= 0.000048 largest residual force= 0.000038 in node 1277 and dof 2 largest increment of disp= 2.693440e-05 largest correction to disp= 1.707558e-07 in node 1276 and dof 1 estimated number of iterations till convergence = 11 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002387 time avg. forc= 0.000048 largest residual force= 0.000000 in node 1277 and dof 2 largest increment of disp= 2.693440e-05 largest correction to disp= 6.098422e-09 in node 1276 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00104876, limit = 0.001, normalization = 0.000206494, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00695513, limit = 0.001, normalization = 1.70816, conv = false ---[precice]  iteration: 8 of 100, time-window: 3720, time: 0.0003719 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3720 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.719000e-04 actual step time=3.720000e-04 actual total time=3.720000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.005917 time avg. forc= 0.000049 largest residual force= 1.486256 in node 1416 and dof 1 largest increment of disp= 2.693709e-05 largest correction to disp= 2.693709e-05 in node 1206 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.003073 time avg. forc= 0.000048 largest residual force= 0.348323 in node 1206 and dof 1 largest increment of disp= 2.693709e-05 largest correction to disp= 1.622227e-05 in node 1207 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002406 time avg. forc= 0.000048 largest residual force= 0.108122 in node 1206 and dof 1 largest increment of disp= 2.693709e-05 largest correction to disp= 9.918912e-06 in node 1206 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002303 time avg. forc= 0.000048 largest residual force= 0.039672 in node 1416 and dof 1 largest increment of disp= 2.693709e-05 largest correction to disp= 6.275457e-06 in node 1352 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002331 time avg. forc= 0.000048 largest residual force= 0.015408 in node 1416 and dof 1 largest increment of disp= 2.693709e-05 largest correction to disp= 4.348729e-06 in node 1310 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002368 time avg. forc= 0.000048 largest residual force= 0.007861 in node 1353 and dof 2 largest increment of disp= 2.693709e-05 largest correction to disp= 3.119786e-06 in node 1310 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002383 time avg. forc= 0.000048 largest residual force= 0.004201 in node 1353 and dof 2 largest increment of disp= 2.693709e-05 largest correction to disp= 2.142029e-06 in node 1206 and dof 1 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002386 time avg. forc= 0.000048 largest residual force= 0.001066 in node 1353 and dof 2 largest increment of disp= 2.693709e-05 largest correction to disp= 1.007935e-06 in node 1173 and dof 1 estimated number of iterations till convergence = 15 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002387 time avg. forc= 0.000048 largest residual force= 0.000038 in node 1277 and dof 2 largest increment of disp= 2.693709e-05 largest correction to disp= 1.707718e-07 in node 1276 and dof 1 estimated number of iterations till convergence = 11 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002387 time avg. forc= 0.000048 largest residual force= 0.000000 in node 1277 and dof 2 largest increment of disp= 2.693709e-05 largest correction to disp= 6.099546e-09 in node 1276 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000281144, limit = 0.001, normalization = 0.000206487, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00427268, limit = 0.001, normalization = 1.70775, conv = false ---[precice]  iteration: 9 of 100, time-window: 3720, time: 0.0003719 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3720 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.719000e-04 actual step time=3.720000e-04 actual total time=3.720000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.005916 time avg. forc= 0.000049 largest residual force= 1.485659 in node 1416 and dof 1 largest increment of disp= 2.693329e-05 largest correction to disp= 2.693329e-05 in node 1206 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.003072 time avg. forc= 0.000048 largest residual force= 0.348177 in node 1206 and dof 1 largest increment of disp= 2.693329e-05 largest correction to disp= 1.621966e-05 in node 1207 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002406 time avg. forc= 0.000048 largest residual force= 0.108078 in node 1206 and dof 1 largest increment of disp= 2.693329e-05 largest correction to disp= 9.917447e-06 in node 1206 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002303 time avg. forc= 0.000048 largest residual force= 0.039657 in node 1416 and dof 1 largest increment of disp= 2.693329e-05 largest correction to disp= 6.274261e-06 in node 1352 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002331 time avg. forc= 0.000048 largest residual force= 0.015402 in node 1416 and dof 1 largest increment of disp= 2.693329e-05 largest correction to disp= 4.348180e-06 in node 1310 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002368 time avg. forc= 0.000048 largest residual force= 0.007859 in node 1353 and dof 2 largest increment of disp= 2.693329e-05 largest correction to disp= 3.119343e-06 in node 1310 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002383 time avg. forc= 0.000048 largest residual force= 0.004200 in node 1353 and dof 2 largest increment of disp= 2.693329e-05 largest correction to disp= 2.141658e-06 in node 1206 and dof 1 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002386 time avg. forc= 0.000048 largest residual force= 0.001065 in node 1353 and dof 2 largest increment of disp= 2.693329e-05 largest correction to disp= 1.007636e-06 in node 1173 and dof 1 estimated number of iterations till convergence = 15 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002387 time avg. forc= 0.000048 largest residual force= 0.000038 in node 1277 and dof 2 largest increment of disp= 2.693329e-05 largest correction to disp= 1.706752e-07 in node 1276 and dof 1 estimated number of iterations till convergence = 11 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002387 time avg. forc= 0.000048 largest residual force= 0.000000 in node 1277 and dof 2 largest increment of disp= 2.693329e-05 largest correction to disp= 6.092664e-09 in node 1276 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000206567, limit = 0.001, normalization = 0.000206492, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.0013489, limit = 0.001, normalization = 1.70796, conv = false ---[precice]  iteration: 10 of 100, time-window: 3720, time: 0.0003719 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3720 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.719000e-04 actual step time=3.720000e-04 actual total time=3.720000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.005916 time avg. forc= 0.000049 largest residual force= 1.485641 in node 1416 and dof 1 largest increment of disp= 2.693347e-05 largest correction to disp= 2.693347e-05 in node 1206 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.003072 time avg. forc= 0.000048 largest residual force= 0.348169 in node 1206 and dof 1 largest increment of disp= 2.693347e-05 largest correction to disp= 1.621929e-05 in node 1207 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002406 time avg. forc= 0.000048 largest residual force= 0.108076 in node 1206 and dof 1 largest increment of disp= 2.693347e-05 largest correction to disp= 9.917377e-06 in node 1206 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002303 time avg. forc= 0.000048 largest residual force= 0.039657 in node 1416 and dof 1 largest increment of disp= 2.693347e-05 largest correction to disp= 6.274177e-06 in node 1352 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002331 time avg. forc= 0.000048 largest residual force= 0.015402 in node 1416 and dof 1 largest increment of disp= 2.693347e-05 largest correction to disp= 4.348118e-06 in node 1310 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002368 time avg. forc= 0.000048 largest residual force= 0.007859 in node 1353 and dof 2 largest increment of disp= 2.693347e-05 largest correction to disp= 3.119290e-06 in node 1310 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002382 time avg. forc= 0.000048 largest residual force= 0.004152 in node 1353 and dof 2 largest increment of disp= 2.693347e-05 largest correction to disp= 2.160484e-06 in node 1206 and dof 1 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002386 time avg. forc= 0.000048 largest residual force= 0.001087 in node 1353 and dof 2 largest increment of disp= 2.693347e-05 largest correction to disp= 1.006063e-06 in node 1173 and dof 1 estimated number of iterations till convergence = 15 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002387 time avg. forc= 0.000048 largest residual force= 0.000038 in node 1277 and dof 2 largest increment of disp= 2.693347e-05 largest correction to disp= 1.709529e-07 in node 1276 and dof 1 estimated number of iterations till convergence = 11 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002387 time avg. forc= 0.000048 largest residual force= 0.000000 in node 1277 and dof 2 largest increment of disp= 2.693347e-05 largest correction to disp= 6.181762e-09 in node 1276 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 5.13845e-05, limit = 0.001, normalization = 0.000206493, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 4.2599e-05, limit = 0.001, normalization = 1.70728, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3721, time: 0.000372 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3721 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.720000e-04 actual step time=3.721000e-04 actual total time=3.721000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002578 time avg. forc= 0.000049 largest residual force= 0.291942 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 1.717666e-05 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002422 time avg. forc= 0.000049 largest residual force= 0.064387 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.898598e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002431 time avg. forc= 0.000049 largest residual force= 0.025679 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.959637e-06 in node 1099 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002447 time avg. forc= 0.000049 largest residual force= 0.009403 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 2.418855e-06 in node 1121 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002455 time avg. forc= 0.000049 largest residual force= 0.003379 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 1.633324e-06 in node 1066 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002457 time avg. forc= 0.000049 largest residual force= 0.000791 in node 1065 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 7.809107e-07 in node 1100 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002458 time avg. forc= 0.000049 largest residual force= 0.000035 in node 1141 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 1.662109e-07 in node 1100 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002458 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 7.549575e-09 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.334311, limit = 0.001, normalization = 0.000200212, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.65023, limit = 0.001, normalization = 2.5329, conv = false ---[precice]  iteration: 2 of 100, time-window: 3721, time: 0.000372 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3721 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.720000e-04 actual step time=3.721000e-04 actual total time=3.721000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002434 time avg. forc= 0.000049 largest residual force= 0.196176 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 1.067035e-05 in node 1100 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002333 time avg. forc= 0.000049 largest residual force= 0.044720 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.425102e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002352 time avg. forc= 0.000049 largest residual force= 0.018376 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.083111e-06 in node 1099 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002366 time avg. forc= 0.000049 largest residual force= 0.006427 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 2.166021e-06 in node 1121 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002372 time avg. forc= 0.000049 largest residual force= 0.002277 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 1.345557e-06 in node 1100 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002374 time avg. forc= 0.000049 largest residual force= 0.000257 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 4.671362e-07 in node 1100 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002374 time avg. forc= 0.000049 largest residual force= 0.000003 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 4.856773e-08 in node 1100 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002374 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 5.818923e-10 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.128235, limit = 0.001, normalization = 0.000197307, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.44285, limit = 0.001, normalization = 2.30237, conv = false ---[precice]  iteration: 3 of 100, time-window: 3721, time: 0.000372 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3721 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.720000e-04 actual step time=3.721000e-04 actual total time=3.721000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002404 time avg. forc= 0.000049 largest residual force= 0.166134 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 9.911303e-06 in node 1100 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002323 time avg. forc= 0.000049 largest residual force= 0.038087 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.116649e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002342 time avg. forc= 0.000049 largest residual force= 0.015884 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.014220e-06 in node 1066 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002355 time avg. forc= 0.000049 largest residual force= 0.005282 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 2.061088e-06 in node 1121 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002359 time avg. forc= 0.000049 largest residual force= 0.001734 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 1.187589e-06 in node 1100 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002360 time avg. forc= 0.000049 largest residual force= 0.000137 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 3.375577e-07 in node 1100 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002360 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 2.599679e-08 in node 1100 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.032646, limit = 0.001, normalization = 0.000197952, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0700941, limit = 0.001, normalization = 2.04586, conv = false ---[precice]  iteration: 4 of 100, time-window: 3721, time: 0.000372 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3721 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.720000e-04 actual step time=3.721000e-04 actual total time=3.721000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002407 time avg. forc= 0.000049 largest residual force= 0.171263 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 1.006586e-05 in node 1100 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002323 time avg. forc= 0.000049 largest residual force= 0.039160 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.175065e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002343 time avg. forc= 0.000049 largest residual force= 0.016312 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.025195e-06 in node 1066 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002355 time avg. forc= 0.000049 largest residual force= 0.005479 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 2.081524e-06 in node 1121 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002360 time avg. forc= 0.000049 largest residual force= 0.001822 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 1.215962e-06 in node 1100 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000154 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 3.588952e-07 in node 1100 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000001 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 2.932289e-08 in node 1100 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 2.183604e-10 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0136628, limit = 0.001, normalization = 0.000198041, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.148575, limit = 0.001, normalization = 2.03257, conv = false ---[precice]  iteration: 5 of 100, time-window: 3721, time: 0.000372 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3721 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.720000e-04 actual step time=3.721000e-04 actual total time=3.721000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002406 time avg. forc= 0.000049 largest residual force= 0.170729 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 1.006111e-05 in node 1100 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002323 time avg. forc= 0.000049 largest residual force= 0.039044 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.174370e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002343 time avg. forc= 0.000049 largest residual force= 0.016267 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.023090e-06 in node 1066 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002355 time avg. forc= 0.000049 largest residual force= 0.005459 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 2.079478e-06 in node 1121 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002360 time avg. forc= 0.000049 largest residual force= 0.001813 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 1.212704e-06 in node 1100 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000152 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 3.562905e-07 in node 1100 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000001 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 2.888788e-08 in node 1100 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 2.118370e-10 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00837083, limit = 0.001, normalization = 0.000198021, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.077311, limit = 0.001, normalization = 2.02478, conv = false ---[precice]  iteration: 6 of 100, time-window: 3721, time: 0.000372 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3721 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.720000e-04 actual step time=3.721000e-04 actual total time=3.721000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002405 time avg. forc= 0.000049 largest residual force= 0.169492 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 1.003442e-05 in node 1100 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002323 time avg. forc= 0.000049 largest residual force= 0.038773 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.164915e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002342 time avg. forc= 0.000049 largest residual force= 0.016163 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.020095e-06 in node 1066 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002355 time avg. forc= 0.000049 largest residual force= 0.005413 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 2.074572e-06 in node 1121 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002360 time avg. forc= 0.000049 largest residual force= 0.001791 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 1.205409e-06 in node 1100 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000148 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 3.509950e-07 in node 1100 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000001 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 2.805605e-08 in node 1100 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 1.999135e-10 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00319491, limit = 0.001, normalization = 0.00019804, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0214652, limit = 0.001, normalization = 2.01952, conv = false ---[precice]  iteration: 7 of 100, time-window: 3721, time: 0.000372 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3721 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.720000e-04 actual step time=3.721000e-04 actual total time=3.721000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002405 time avg. forc= 0.000049 largest residual force= 0.169509 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 1.002658e-05 in node 1100 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002323 time avg. forc= 0.000049 largest residual force= 0.038765 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.163989e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002342 time avg. forc= 0.000049 largest residual force= 0.016161 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.020743e-06 in node 1066 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002355 time avg. forc= 0.000049 largest residual force= 0.005413 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 2.074381e-06 in node 1121 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002360 time avg. forc= 0.000049 largest residual force= 0.001790 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 1.204945e-06 in node 1100 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000148 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 3.511184e-07 in node 1100 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000001 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 2.810706e-08 in node 1100 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 2.008092e-10 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00170874, limit = 0.001, normalization = 0.00019803, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00575552, limit = 0.001, normalization = 2.01964, conv = false ---[precice]  iteration: 8 of 100, time-window: 3721, time: 0.000372 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3721 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.720000e-04 actual step time=3.721000e-04 actual total time=3.721000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002406 time avg. forc= 0.000049 largest residual force= 0.169601 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 1.002821e-05 in node 1100 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002323 time avg. forc= 0.000049 largest residual force= 0.038782 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.164141e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002342 time avg. forc= 0.000049 largest residual force= 0.016168 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.020847e-06 in node 1066 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002355 time avg. forc= 0.000049 largest residual force= 0.005416 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 2.074589e-06 in node 1121 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002360 time avg. forc= 0.000049 largest residual force= 0.001792 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 1.205417e-06 in node 1100 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000148 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 3.515898e-07 in node 1100 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000001 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 2.818845e-08 in node 1100 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 2.020068e-10 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000802154, limit = 0.001, normalization = 0.000198032, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00360898, limit = 0.001, normalization = 2.0191, conv = false ---[precice]  iteration: 9 of 100, time-window: 3721, time: 0.000372 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3721 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.720000e-04 actual step time=3.721000e-04 actual total time=3.721000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002406 time avg. forc= 0.000049 largest residual force= 0.169613 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 1.002874e-05 in node 1100 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002323 time avg. forc= 0.000049 largest residual force= 0.038785 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.164280e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002342 time avg. forc= 0.000049 largest residual force= 0.016169 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.020967e-06 in node 1066 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002355 time avg. forc= 0.000049 largest residual force= 0.005417 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 2.074651e-06 in node 1121 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002360 time avg. forc= 0.000049 largest residual force= 0.001792 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 1.205470e-06 in node 1100 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000148 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 3.516326e-07 in node 1100 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000001 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 2.819601e-08 in node 1100 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 2.021219e-10 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000381155, limit = 0.001, normalization = 0.000198034, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00117467, limit = 0.001, normalization = 2.01921, conv = false ---[precice]  iteration: 10 of 100, time-window: 3721, time: 0.000372 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3721 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.720000e-04 actual step time=3.721000e-04 actual total time=3.721000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002406 time avg. forc= 0.000049 largest residual force= 0.169617 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 1.002906e-05 in node 1100 and dof 3 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002323 time avg. forc= 0.000049 largest residual force= 0.038786 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.164291e-06 in node 1205 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002342 time avg. forc= 0.000049 largest residual force= 0.016170 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 3.020965e-06 in node 1066 and dof 3 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002355 time avg. forc= 0.000049 largest residual force= 0.005417 in node 1100 and dof 3 largest increment of disp= 2.042154e-05 largest correction to disp= 2.074686e-06 in node 1121 and dof 3 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002360 time avg. forc= 0.000049 largest residual force= 0.001792 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 1.205509e-06 in node 1100 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000148 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 3.516377e-07 in node 1100 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000001 in node 1142 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 2.819514e-08 in node 1100 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002361 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1141 and dof 2 largest increment of disp= 2.042154e-05 largest correction to disp= 2.020984e-10 in node 1205 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000173013, limit = 0.001, normalization = 0.000198034, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000527384, limit = 0.001, normalization = 2.0193, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3722, time: 0.0003721 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3722 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.721000e-04 actual step time=3.722000e-04 actual total time=3.722000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001723 time avg. forc= 0.000049 largest residual force= 0.003122 in node 1077 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.665498e-05 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001724 time avg. forc= 0.000049 largest residual force= 0.000148 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 4.488262e-07 in node 227 and dof 2 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001724 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.342021e-08 in node 1076 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.295442, limit = 0.001, normalization = 0.000205513, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.93261, limit = 0.001, normalization = 0.968885, conv = false ---[precice]  iteration: 2 of 100, time-window: 3722, time: 0.0003721 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3722 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.721000e-04 actual step time=3.722000e-04 actual total time=3.722000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001747 time avg. forc= 0.000049 largest residual force= 0.002987 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.107144e-05 in node 1390 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000139 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 3.957992e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.384229e-08 in node 1076 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0512011, limit = 0.001, normalization = 0.000216243, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.41904, limit = 0.001, normalization = 2.96263, conv = false ---[precice]  iteration: 3 of 100, time-window: 3722, time: 0.0003721 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3722 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.721000e-04 actual step time=3.722000e-04 actual total time=3.722000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000049 largest residual force= 0.002736 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.106398e-05 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000141 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 3.988819e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.323646e-08 in node 1076 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0308504, limit = 0.001, normalization = 0.0002161, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0204991, limit = 0.001, normalization = 2.89095, conv = false ---[precice]  iteration: 4 of 100, time-window: 3722, time: 0.0003721 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3722 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.721000e-04 actual step time=3.722000e-04 actual total time=3.722000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000049 largest residual force= 0.002714 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.070162e-05 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000142 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 3.996476e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.314637e-08 in node 1076 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0138536, limit = 0.001, normalization = 0.000216534, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0166722, limit = 0.001, normalization = 2.85809, conv = false ---[precice]  iteration: 5 of 100, time-window: 3722, time: 0.0003721 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3722 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.721000e-04 actual step time=3.722000e-04 actual total time=3.722000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000049 largest residual force= 0.002708 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.056649e-05 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000141 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 3.987212e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.311797e-08 in node 1076 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00624737, limit = 0.001, normalization = 0.000216727, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.022492, limit = 0.001, normalization = 2.86253, conv = false ---[precice]  iteration: 6 of 100, time-window: 3722, time: 0.0003721 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3722 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.721000e-04 actual step time=3.722000e-04 actual total time=3.722000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000049 largest residual force= 0.002703 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.051325e-05 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000141 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 3.984547e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.309822e-08 in node 1076 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00274041, limit = 0.001, normalization = 0.000216773, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0274491, limit = 0.001, normalization = 2.86221, conv = false ---[precice]  iteration: 7 of 100, time-window: 3722, time: 0.0003721 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3722 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.721000e-04 actual step time=3.722000e-04 actual total time=3.722000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000049 largest residual force= 0.002704 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.052746e-05 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000141 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 3.989779e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.311767e-08 in node 1076 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00183599, limit = 0.001, normalization = 0.000216755, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0025151, limit = 0.001, normalization = 2.86036, conv = false ---[precice]  iteration: 8 of 100, time-window: 3722, time: 0.0003721 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3722 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.721000e-04 actual step time=3.722000e-04 actual total time=3.722000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000049 largest residual force= 0.002705 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.056871e-05 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000141 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 3.991356e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.312482e-08 in node 1076 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000647269, limit = 0.001, normalization = 0.000216705, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00676541, limit = 0.001, normalization = 2.86048, conv = false ---[precice]  iteration: 9 of 100, time-window: 3722, time: 0.0003721 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3722 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.721000e-04 actual step time=3.722000e-04 actual total time=3.722000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001749 time avg. forc= 0.000049 largest residual force= 0.002706 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.056706e-05 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000141 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 3.990249e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 7.336712e-08 in node 1905 and dof 2 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000322859, limit = 0.001, normalization = 0.000216711, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00296659, limit = 0.001, normalization = 2.8622, conv = false ---[precice]  iteration: 10 of 100, time-window: 3722, time: 0.0003721 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3722 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.721000e-04 actual step time=3.722000e-04 actual total time=3.722000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001748 time avg. forc= 0.000049 largest residual force= 0.002706 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.056832e-05 in node 1285 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000141 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 3.991716e-07 in node 1183 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001750 time avg. forc= 0.000049 largest residual force= 0.000000 in node 1075 and dof 2 largest increment of disp= 2.447195e-05 largest correction to disp= 1.313014e-08 in node 1076 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000166151, limit = 0.001, normalization = 0.000216707, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000532559, limit = 0.001, normalization = 2.86217, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3723, time: 0.0003722 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3723 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.722000e-04 actual step time=3.723000e-04 actual total time=3.723000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002788 time avg. forc= 0.000050 largest residual force= 0.073051 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.423512e-05 in node 1212 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002820 time avg. forc= 0.000050 largest residual force= 0.014680 in node 1215 and dof 1 largest increment of disp= 1.708602e-05 largest correction to disp= 5.341914e-06 in node 1212 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002893 time avg. forc= 0.000050 largest residual force= 0.008552 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 4.890863e-06 in node 1233 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002923 time avg. forc= 0.000050 largest residual force= 0.002950 in node 970 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 2.588095e-06 in node 1212 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002930 time avg. forc= 0.000050 largest residual force= 0.000521 in node 1184 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.092074e-06 in node 1212 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002931 time avg. forc= 0.000050 largest residual force= 0.000020 in node 1184 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.809883e-07 in node 1212 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002931 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1186 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 6.513722e-09 in node 1212 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.272085, limit = 0.001, normalization = 0.000211851, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 2.25144, limit = 0.001, normalization = 2.23936, conv = false ---[precice]  iteration: 2 of 100, time-window: 3723, time: 0.0003722 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3723 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.722000e-04 actual step time=3.723000e-04 actual total time=3.723000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002786 time avg. forc= 0.000050 largest residual force= 0.085154 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.412355e-05 in node 1212 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002715 time avg. forc= 0.000050 largest residual force= 0.017142 in node 1000 and dof 3 largest increment of disp= 1.708602e-05 largest correction to disp= 5.400101e-06 in node 1212 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002797 time avg. forc= 0.000050 largest residual force= 0.009318 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 4.564865e-06 in node 1233 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002832 time avg. forc= 0.000050 largest residual force= 0.003675 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 2.559830e-06 in node 1212 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002841 time avg. forc= 0.000050 largest residual force= 0.000949 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.165706e-06 in node 1000 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002842 time avg. forc= 0.000050 largest residual force= 0.000030 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 2.293580e-07 in node 1000 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002843 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1148 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 8.509869e-09 in node 1000 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0953096, limit = 0.001, normalization = 0.000199092, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.47655, limit = 0.001, normalization = 2.78378, conv = false ---[precice]  iteration: 3 of 100, time-window: 3723, time: 0.0003722 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3723 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.722000e-04 actual step time=3.723000e-04 actual total time=3.723000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002746 time avg. forc= 0.000050 largest residual force= 0.078475 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.402571e-05 in node 1212 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002718 time avg. forc= 0.000050 largest residual force= 0.016064 in node 1215 and dof 1 largest increment of disp= 1.708602e-05 largest correction to disp= 5.375203e-06 in node 1212 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002796 time avg. forc= 0.000050 largest residual force= 0.008811 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 4.583029e-06 in node 1233 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002830 time avg. forc= 0.000050 largest residual force= 0.003296 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 2.522832e-06 in node 1212 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002838 time avg. forc= 0.000050 largest residual force= 0.000738 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.062225e-06 in node 1212 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002839 time avg. forc= 0.000050 largest residual force= 0.000019 in node 1147 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.784418e-07 in node 1000 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002839 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1148 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 5.313114e-09 in node 1000 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0348564, limit = 0.001, normalization = 0.000198357, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.386371, limit = 0.001, normalization = 1.55779, conv = false ---[precice]  iteration: 4 of 100, time-window: 3723, time: 0.0003722 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3723 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.722000e-04 actual step time=3.723000e-04 actual total time=3.723000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002747 time avg. forc= 0.000050 largest residual force= 0.079638 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.418520e-05 in node 1212 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002719 time avg. forc= 0.000050 largest residual force= 0.016195 in node 1215 and dof 1 largest increment of disp= 1.708602e-05 largest correction to disp= 5.413382e-06 in node 1212 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002797 time avg. forc= 0.000050 largest residual force= 0.008915 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 4.655641e-06 in node 1233 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002831 time avg. forc= 0.000050 largest residual force= 0.003345 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 2.556925e-06 in node 1212 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002839 time avg. forc= 0.000050 largest residual force= 0.000752 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.082968e-06 in node 1212 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002840 time avg. forc= 0.000050 largest residual force= 0.000020 in node 1147 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.822030e-07 in node 1000 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002841 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1148 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 5.696792e-09 in node 1212 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0149768, limit = 0.001, normalization = 0.000198339, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.22103, limit = 0.001, normalization = 1.05427, conv = false ---[precice]  iteration: 5 of 100, time-window: 3723, time: 0.0003722 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3723 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.722000e-04 actual step time=3.723000e-04 actual total time=3.723000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002751 time avg. forc= 0.000050 largest residual force= 0.080262 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.420588e-05 in node 1212 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002717 time avg. forc= 0.000050 largest residual force= 0.016350 in node 1215 and dof 1 largest increment of disp= 1.708602e-05 largest correction to disp= 5.424593e-06 in node 1212 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002796 time avg. forc= 0.000050 largest residual force= 0.008964 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 4.658574e-06 in node 1233 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002830 time avg. forc= 0.000050 largest residual force= 0.003383 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 2.564321e-06 in node 1212 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002838 time avg. forc= 0.000050 largest residual force= 0.000769 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.089259e-06 in node 1212 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002840 time avg. forc= 0.000050 largest residual force= 0.000021 in node 1147 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.863467e-07 in node 1000 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002840 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1148 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 5.822955e-09 in node 1212 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00495312, limit = 0.001, normalization = 0.000198417, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.123918, limit = 0.001, normalization = 1.10008, conv = false ---[precice]  iteration: 6 of 100, time-window: 3723, time: 0.0003722 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3723 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.722000e-04 actual step time=3.723000e-04 actual total time=3.723000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002749 time avg. forc= 0.000050 largest residual force= 0.079820 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.416780e-05 in node 1212 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002718 time avg. forc= 0.000050 largest residual force= 0.016258 in node 1215 and dof 1 largest increment of disp= 1.708602e-05 largest correction to disp= 5.413918e-06 in node 1212 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002797 time avg. forc= 0.000050 largest residual force= 0.008923 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 4.642028e-06 in node 1233 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002830 time avg. forc= 0.000050 largest residual force= 0.003358 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 2.555282e-06 in node 1212 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002839 time avg. forc= 0.000050 largest residual force= 0.000760 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.084070e-06 in node 1212 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002840 time avg. forc= 0.000050 largest residual force= 0.000021 in node 1147 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.844031e-07 in node 1000 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002840 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1148 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 5.776395e-09 in node 1212 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00161551, limit = 0.001, normalization = 0.000198375, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.00244663, limit = 0.001, normalization = 1.12617, conv = false ---[precice]  iteration: 7 of 100, time-window: 3723, time: 0.0003722 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3723 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.722000e-04 actual step time=3.723000e-04 actual total time=3.723000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002749 time avg. forc= 0.000050 largest residual force= 0.079835 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.416523e-05 in node 1212 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002718 time avg. forc= 0.000050 largest residual force= 0.016254 in node 1215 and dof 1 largest increment of disp= 1.708602e-05 largest correction to disp= 5.413187e-06 in node 1212 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002797 time avg. forc= 0.000050 largest residual force= 0.008924 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 4.640348e-06 in node 1233 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002830 time avg. forc= 0.000050 largest residual force= 0.003359 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 2.554574e-06 in node 1212 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002839 time avg. forc= 0.000050 largest residual force= 0.000761 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.083616e-06 in node 1212 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002840 time avg. forc= 0.000050 largest residual force= 0.000021 in node 1147 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.846242e-07 in node 1000 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002840 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1148 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 5.765162e-09 in node 1212 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000596727, limit = 0.001, normalization = 0.000198381, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00172631, limit = 0.001, normalization = 1.11637, conv = false ---[precice]  iteration: 8 of 100, time-window: 3723, time: 0.0003722 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3723 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.722000e-04 actual step time=3.723000e-04 actual total time=3.723000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002750 time avg. forc= 0.000050 largest residual force= 0.079899 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.416923e-05 in node 1212 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002718 time avg. forc= 0.000050 largest residual force= 0.016260 in node 1215 and dof 1 largest increment of disp= 1.708602e-05 largest correction to disp= 5.414013e-06 in node 1212 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002797 time avg. forc= 0.000050 largest residual force= 0.008929 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 4.641760e-06 in node 1233 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002830 time avg. forc= 0.000050 largest residual force= 0.003362 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 2.555402e-06 in node 1212 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002839 time avg. forc= 0.000050 largest residual force= 0.000762 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.084097e-06 in node 1212 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002840 time avg. forc= 0.000050 largest residual force= 0.000021 in node 1147 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.850312e-07 in node 1000 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002840 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1148 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 5.771776e-09 in node 1212 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000306778, limit = 0.001, normalization = 0.000198383, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00883974, limit = 0.001, normalization = 1.10754, conv = false ---[precice]  iteration: 9 of 100, time-window: 3723, time: 0.0003722 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3723 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.722000e-04 actual step time=3.723000e-04 actual total time=3.723000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002750 time avg. forc= 0.000050 largest residual force= 0.079921 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.417035e-05 in node 1212 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002718 time avg. forc= 0.000050 largest residual force= 0.016266 in node 1215 and dof 1 largest increment of disp= 1.708602e-05 largest correction to disp= 5.414457e-06 in node 1212 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002797 time avg. forc= 0.000050 largest residual force= 0.008931 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 4.642039e-06 in node 1233 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002830 time avg. forc= 0.000050 largest residual force= 0.003363 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 2.555707e-06 in node 1212 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002839 time avg. forc= 0.000050 largest residual force= 0.000763 in node 1042 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.084334e-06 in node 1212 and dof 1 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002840 time avg. forc= 0.000050 largest residual force= 0.000021 in node 1147 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 1.851790e-07 in node 1000 and dof 3 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002840 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1148 and dof 2 largest increment of disp= 1.708602e-05 largest correction to disp= 5.775856e-09 in node 1212 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000131664, limit = 0.001, normalization = 0.000198384, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000263421, limit = 0.001, normalization = 1.10764, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3724, time: 0.0003723 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3724 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.723000e-04 actual step time=3.724000e-04 actual total time=3.724000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001682 time avg. forc= 0.000050 largest residual force= 0.004447 in node 1279 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 2.176699e-05 in node 1178 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001682 time avg. forc= 0.000050 largest residual force= 0.000129 in node 1469 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 1.822908e-06 in node 557 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001682 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 1.419090e-08 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.36876, limit = 0.001, normalization = 0.000198702, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 1.23014, limit = 0.001, normalization = 2.23252, conv = false ---[precice]  iteration: 2 of 100, time-window: 3724, time: 0.0003723 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3724 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.723000e-04 actual step time=3.724000e-04 actual total time=3.724000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001665 time avg. forc= 0.000050 largest residual force= 0.003888 in node 1279 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 9.141357e-06 in node 1180 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000173 in node 1469 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 7.498915e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1469 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 1.801450e-08 in node 1448 and dof 3 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.105172, limit = 0.001, normalization = 0.000211977, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.444488, limit = 0.001, normalization = 3.72695, conv = false ---[precice]  iteration: 3 of 100, time-window: 3724, time: 0.0003723 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3724 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.723000e-04 actual step time=3.724000e-04 actual total time=3.724000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001667 time avg. forc= 0.000050 largest residual force= 0.003713 in node 1279 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 9.752715e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000096 in node 1469 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 5.538788e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 9.157169e-09 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.0359619, limit = 0.001, normalization = 0.000212426, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0704245, limit = 0.001, normalization = 3.18184, conv = false ---[precice]  iteration: 4 of 100, time-window: 3724, time: 0.0003723 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3724 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.723000e-04 actual step time=3.724000e-04 actual total time=3.724000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.003676 in node 1355 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 8.774272e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000110 in node 1469 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 5.964471e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 1.080787e-08 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.016799, limit = 0.001, normalization = 0.000213393, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0133804, limit = 0.001, normalization = 3.17826, conv = false ---[precice]  iteration: 5 of 100, time-window: 3724, time: 0.0003723 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3724 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.723000e-04 actual step time=3.724000e-04 actual total time=3.724000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.003675 in node 1355 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 8.891979e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000109 in node 1469 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 5.941562e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 1.074176e-08 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.01401, limit = 0.001, normalization = 0.000213286, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0272359, limit = 0.001, normalization = 3.1751, conv = false ---[precice]  iteration: 6 of 100, time-window: 3724, time: 0.0003723 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3724 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.723000e-04 actual step time=3.724000e-04 actual total time=3.724000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001667 time avg. forc= 0.000050 largest residual force= 0.003675 in node 1355 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 8.946679e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000109 in node 1469 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 5.924707e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 1.076511e-08 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00730563, limit = 0.001, normalization = 0.000213257, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0026273, limit = 0.001, normalization = 3.18286, conv = false ---[precice]  iteration: 7 of 100, time-window: 3724, time: 0.0003723 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3724 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.723000e-04 actual step time=3.724000e-04 actual total time=3.724000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.003675 in node 1355 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 9.005031e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000109 in node 1469 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 5.915924e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 1.062362e-08 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00271882, limit = 0.001, normalization = 0.000213192, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0115922, limit = 0.001, normalization = 3.18471, conv = false ---[precice]  iteration: 8 of 100, time-window: 3724, time: 0.0003723 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3724 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.723000e-04 actual step time=3.724000e-04 actual total time=3.724000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.003675 in node 1355 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 8.981330e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000109 in node 1469 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 5.941485e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 1.065600e-08 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.00117603, limit = 0.001, normalization = 0.00021323, conv = false ---[precice]  relative convergence measure: relative two-norm diff = 0.0101192, limit = 0.001, normalization = 3.18354, conv = false ---[precice]  iteration: 9 of 100, time-window: 3724, time: 0.0003723 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3724 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.723000e-04 actual step time=3.724000e-04 actual total time=3.724000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001667 time avg. forc= 0.000050 largest residual force= 0.003675 in node 1355 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 8.990713e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000109 in node 1469 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 5.944353e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000000 in node 1354 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 1.066033e-08 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000415487, limit = 0.001, normalization = 0.000213226, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.00238374, limit = 0.001, normalization = 3.18233, conv = false ---[precice]  iteration: 10 of 100, time-window: 3724, time: 0.0003723 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: no, read-iteration-checkpoint Adapter reading checkpoint... Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. increment 3724 attempt 2 increment size= 1.000000e-07 sum of previous increments=3.723000e-04 actual step time=3.724000e-04 actual total time=3.724000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001667 time avg. forc= 0.000050 largest residual force= 0.003675 in node 1355 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 8.990333e-06 in node 1388 and dof 2 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000109 in node 1469 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 5.944123e-07 in node 1427 and dof 3 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.001666 time avg. forc= 0.000050 largest residual force= 0.000000 in node 853 and dof 2 largest increment of disp= 2.953227e-05 largest correction to disp= 1.066706e-08 in node 1427 and dof 1 convergence Adapter writing coupling data... Writing DISPLACEMENTS coupling data with ID '2'. Adapter calling advance()... ---[precice]  relative convergence measure: relative two-norm diff = 0.000159911, limit = 0.001, normalization = 0.000213226, conv = true ---[precice]  relative convergence measure: relative two-norm diff = 0.000323776, limit = 0.001, normalization = 3.18203, conv = true ---[precice]  All converged ---[precice]  Time window completed ---[precice]  iteration: 1 of 100, time-window: 3725, time: 0.0003724 of 0.015, time-window-size: 1e-07, max-timestep-length: 1e-07, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint Adjusting time step for transient step precice_dt dtheta = 0.000000, dtheta = 0.000000, solver_dt = 0.000000 Adapter reading coupling data... Reading FORCES coupling data with ID '3'. Adapter writing checkpoint... increment 3725 attempt 1 increment size= 1.000000e-07 sum of previous increments=3.724000e-04 actual step time=3.725000e-04 actual total time=3.725000e-04 iteration 1 Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 36.294492 time avg. forc= 0.010054 largest residual force= 18002.989626 in node 1207 and dof 1 largest increment of disp= 6.797089e-04 largest correction to disp= 6.797089e-04 in node 1206 and dof 1 no convergence iteration 2 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 10.753503 time avg. forc= 0.003014 largest residual force= 5326.725072 in node 1207 and dof 1 largest increment of disp= 6.797089e-04 largest correction to disp= 2.503287e-04 in node 1416 and dof 1 no convergence iteration 3 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 3.186964 time avg. forc= 0.000929 largest residual force= 1573.517057 in node 1207 and dof 1 largest increment of disp= 6.797089e-04 largest correction to disp= 1.655820e-04 in node 1416 and dof 1 no convergence iteration 4 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.949199 time avg. forc= 0.000312 largest residual force= 463.755954 in node 1207 and dof 1 largest increment of disp= 6.797089e-04 largest correction to disp= 1.080355e-04 in node 1227 and dof 1 no convergence iteration 5 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.287259 time avg. forc= 0.000130 largest residual force= 136.226433 in node 1207 and dof 1 largest increment of disp= 6.797089e-04 largest correction to disp= 7.381742e-05 in node 1227 and dof 3 no convergence iteration 6 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.090363 time avg. forc= 0.000075 largest residual force= 39.861844 in node 1207 and dof 1 largest increment of disp= 6.797089e-04 largest correction to disp= 4.571515e-05 in node 1437 and dof 1 no convergence iteration 7 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.030879 time avg. forc= 0.000059 largest residual force= 11.709902 in node 1207 and dof 1 largest increment of disp= 6.797089e-04 largest correction to disp= 3.248519e-05 in node 1206 and dof 3 no convergence iteration 8 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.012249 time avg. forc= 0.000054 largest residual force= 3.536195 in node 1207 and dof 1 largest increment of disp= 6.797089e-04 largest correction to disp= 3.182183e-05 in node 1206 and dof 3 estimated number of iterations till convergence = 22 no convergence iteration 9 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.005911 time avg. forc= 0.000052 largest residual force= 1.127897 in node 1207 and dof 1 largest increment of disp= 6.797089e-04 largest correction to disp= 2.439369e-05 in node 1206 and dof 3 estimated number of iterations till convergence = 23 no convergence iteration 10 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.003546 time avg. forc= 0.000051 largest residual force= 0.372718 in node 1207 and dof 1 largest increment of disp= 6.797089e-04 largest correction to disp= 1.810892e-05 in node 1351 and dof 1 estimated number of iterations till convergence = 23 no convergence iteration 11 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002704 time avg. forc= 0.000051 largest residual force= 0.124140 in node 1207 and dof 1 largest increment of disp= 6.797089e-04 largest correction to disp= 1.140475e-05 in node 1351 and dof 1 estimated number of iterations till convergence = 23 no convergence iteration 12 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002505 time avg. forc= 0.000051 largest residual force= 0.044993 in node 1207 and dof 1 largest increment of disp= 6.797089e-04 largest correction to disp= 6.550708e-06 in node 1206 and dof 3 estimated number of iterations till convergence = 24 no convergence iteration 13 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002521 time avg. forc= 0.000051 largest residual force= 0.018210 in node 1207 and dof 1 largest increment of disp= 6.797089e-04 largest correction to disp= 4.719892e-06 in node 1312 and dof 1 estimated number of iterations till convergence = 26 no convergence iteration 14 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002571 time avg. forc= 0.000051 largest residual force= 0.008597 in node 1353 and dof 2 largest increment of disp= 6.797089e-04 largest correction to disp= 3.239223e-06 in node 1312 and dof 1 estimated number of iterations till convergence = 28 no convergence iteration 15 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002595 time avg. forc= 0.000051 largest residual force= 0.004967 in node 1353 and dof 2 largest increment of disp= 6.797089e-04 largest correction to disp= 2.155111e-06 in node 1312 and dof 1 estimated number of iterations till convergence = 33 no convergence iteration 16 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002603 time avg. forc= 0.000051 largest residual force= 0.001836 in node 1277 and dof 2 largest increment of disp= 6.797089e-04 largest correction to disp= 1.362486e-06 in node 1312 and dof 1 estimated number of iterations till convergence = 25 no convergence iteration 17 Using up to 28 cpu(s) for the symmetric stiffness/mass contributions. Factoring the system of equations using the symmetric spooles solver Using up to 28 cpu(s) for spooles. Using up to 28 cpu(s) for the stress calculation. Using up to 28 cpu(s) for the energy calculation. average force= 0.002605 time avg. forc= 0.000051 largest residual force= 0.000494 in node 1279 and dof 2 largest increment of disp= 6.797089e-04 largest correction to disp= 6.136896e-07 in node 1280 and dof 1