
************************************************************

CalculiX Version 2.13, Copyright(C) 1998-2017 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 So 8. Okt 22:10:07 CEST 2017
 Decascading the MPC's

 Determining the structure of the matrix:
 number of equations
 114018
 number of nonzero lower triangular matrix elements
 2074425

Starting FSI analysis via preCICE using the geometrically non-linear CalculiX solver...
 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

Setting up preCICE participant Calculix, using config file: config.yml
(0) 09:19:56 [impl::SolverInterfaceImpl]:107 in configure: [0mThis is preCICE version 1.6.1
(0) 09:19:56 [impl::SolverInterfaceImpl]:108 in configure: [0mRevision info: no-info [Git failed/Not a repository]
(0) 09:19:56 [impl::SolverInterfaceImpl]:109 in configure: [0mConfiguring preCICE with configuration: "./precice-config.xml"
(0) 09:19:56 [impl::SolverInterfaceImpl]:152 in configure: [0mRun in coupling mode
Read data 'Forces0' found.
Write data 'Displacements0' found.
(0) 09:19:56 [impl::SolverInterfaceImpl]:220 in initialize: [0mSetting up master communication to coupling partner/s
(0) 09:20:02 [impl::SolverInterfaceImpl]:228 in initialize: [0mMasters are connected
(0) 09:20:02 [partition::ProvidedPartition]:36 in communicate: [0mGather mesh Calculix_Mesh
(0) 09:20:02 [partition::ProvidedPartition]:62 in communicate: [0mSend global mesh Calculix_Mesh
(0) 09:20:02 [partition::ProvidedPartition]:79 in compute: [0mCompute partition for mesh Calculix_Mesh
(0) 09:20:02 [impl::SolverInterfaceImpl]:232 in initialize: [0mSetting up slaves communication to coupling partner/s
(0) 09:20:02 [impl::SolverInterfaceImpl]:240 in initialize: [0mSlaves are connected
(0) 09:20:02 [impl::SolverInterfaceImpl]:266 in initialize: [0mit 1 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | write-initial-data | write-iteration-checkpoint | 
Initializing coupling data
Adapter writing coupling data...
Adapter reading coupling data...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 1 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000154
 time avg. forc= 0.000154
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 4.207071e-08
 largest correction to disp= 4.207071e-08 in node 13053 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000154
 time avg. forc= 0.000154
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 4.207071e-08
 largest correction to disp= 1.711945e-13 in node 4725 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:20:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.3565e-06, limit = 1e-05, conv = true
(0) 09:20:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.285918, limit = 1e-05, conv = false
(0) 09:20:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000213
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 6.083635e-08
 largest correction to disp= 6.083635e-08 in node 13053 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000213
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 6.083635e-08
 largest correction to disp= 4.174914e-13 in node 4725 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:21:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.68537e-06, limit = 1e-05, conv = true
(0) 09:21:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.139148, limit = 1e-05, conv = false
(0) 09:21:17 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000837
 time avg. forc= 0.000837
 largest residual force= 0.000001 in node 30257 and dof 3
 largest increment of disp= 1.267245e-07
 largest correction to disp= 1.267245e-07 in node 15141 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000837
 time avg. forc= 0.000837
 largest residual force= 0.000000 in node 10722 and dof 2
 largest increment of disp= 1.267245e-07
 largest correction to disp= 4.036048e-12 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:21:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.05501e-05, limit = 1e-05, conv = false
(0) 09:21:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.871347, limit = 1e-05, conv = false
(0) 09:21:46 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000768
 time avg. forc= 0.000768
 largest residual force= 0.000004 in node 30257 and dof 3
 largest increment of disp= 1.767276e-07
 largest correction to disp= 1.767276e-07 in node 5494 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000768
 time avg. forc= 0.000768
 largest residual force= 0.000000 in node 14780 and dof 2
 largest increment of disp= 1.767276e-07
 largest correction to disp= 3.832602e-12 in node 4838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:22:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.58102e-05, limit = 1e-05, conv = false
(0) 09:22:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.37862, limit = 1e-05, conv = false
(0) 09:22:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001210
 time avg. forc= 0.001210
 largest residual force= 0.000011 in node 30257 and dof 3
 largest increment of disp= 2.990841e-07
 largest correction to disp= 2.990841e-07 in node 5494 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001210
 time avg. forc= 0.001210
 largest residual force= 0.000000 in node 12296 and dof 1
 largest increment of disp= 2.990841e-07
 largest correction to disp= 9.924993e-12 in node 4838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:22:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.78201e-05, limit = 1e-05, conv = false
(0) 09:22:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.894157, limit = 1e-05, conv = false
(0) 09:22:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000373
 time avg. forc= 0.000373
 largest residual force= 0.000001 in node 30257 and dof 3
 largest increment of disp= 8.758939e-08
 largest correction to disp= 8.758939e-08 in node 9086 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000373
 time avg. forc= 0.000373
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 8.758939e-08
 largest correction to disp= 9.378492e-13 in node 4838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:23:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.8786e-06, limit = 1e-05, conv = true
(0) 09:23:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.46266, limit = 1e-05, conv = false
(0) 09:23:13 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000187
 time avg. forc= 0.000187
 largest residual force= 0.000000 in node 27272 and dof 3
 largest increment of disp= 4.643285e-08
 largest correction to disp= 4.643285e-08 in node 5175 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000187
 time avg. forc= 0.000187
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 4.643285e-08
 largest correction to disp= 3.165840e-13 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:23:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.99984e-06, limit = 1e-05, conv = true
(0) 09:23:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.827492, limit = 1e-05, conv = false
(0) 09:23:41 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000081
 time avg. forc= 0.000081
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.701444e-08
 largest correction to disp= 1.701444e-08 in node 13450 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000081
 time avg. forc= 0.000081
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.701444e-08
 largest correction to disp= 5.619097e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:23:57 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.64118e-07, limit = 1e-05, conv = true
(0) 09:23:57 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.36192, limit = 1e-05, conv = false
(0) 09:24:09 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000093
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 2.658900e-08
 largest correction to disp= 2.658900e-08 in node 13053 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000093
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.658900e-08
 largest correction to disp= 9.591979e-14 in node 4725 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:24:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.46556e-06, limit = 1e-05, conv = true
(0) 09:24:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0931479, limit = 1e-05, conv = false
(0) 09:24:37 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000016
 time avg. forc= 0.000016
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 6.088512e-09
 largest correction to disp= 6.088512e-09 in node 15681 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000016
 time avg. forc= 0.000016
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 6.088512e-09
 largest correction to disp= 1.913291e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:24:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.09609e-06, limit = 1e-05, conv = true
(0) 09:24:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.171813, limit = 1e-05, conv = false
(0) 09:25:06 [impl::SolverInterfaceImpl]:390 in advance: [0mit 11 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000015
 time avg. forc= 0.000015
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 6.003213e-09
 largest correction to disp= 6.003213e-09 in node 15681 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000015
 time avg. forc= 0.000015
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 6.003213e-09
 largest correction to disp= 1.962213e-14 in node 16712 and dof 1

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:25:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.00536e-06, limit = 1e-05, conv = true
(0) 09:25:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00737477, limit = 1e-05, conv = false
(0) 09:25:34 [impl::SolverInterfaceImpl]:390 in advance: [0mit 12 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000062
 time avg. forc= 0.000062
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.609284e-08
 largest correction to disp= 1.609284e-08 in node 13053 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000062
 time avg. forc= 0.000062
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 1.609284e-08
 largest correction to disp= 4.169934e-14 in node 4677 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:25:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.27424e-07, limit = 1e-05, conv = true
(0) 09:25:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.107141, limit = 1e-05, conv = false
(0) 09:26:02 [impl::SolverInterfaceImpl]:390 in advance: [0mit 13 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000070
 time avg. forc= 0.000070
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.875408e-08
 largest correction to disp= 1.875408e-08 in node 13053 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000070
 time avg. forc= 0.000070
 largest residual force= 0.000000 in node 22821 and dof 2
 largest increment of disp= 1.875408e-08
 largest correction to disp= 5.195855e-14 in node 4677 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:26:18 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.24211e-07, limit = 1e-05, conv = true
(0) 09:26:18 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0183646, limit = 1e-05, conv = false
(0) 09:26:29 [impl::SolverInterfaceImpl]:390 in advance: [0mit 14 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000034
 time avg. forc= 0.000034
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.124267e-09
 largest correction to disp= 9.124267e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000034
 time avg. forc= 0.000034
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 9.124267e-09
 largest correction to disp= 1.948743e-14 in node 16712 and dof 1

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:26:46 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.07858e-07, limit = 1e-05, conv = true
(0) 09:26:46 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0722115, limit = 1e-05, conv = false
(0) 09:26:57 [impl::SolverInterfaceImpl]:390 in advance: [0mit 15 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000034
 time avg. forc= 0.000034
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.070985e-09
 largest correction to disp= 9.070985e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000034
 time avg. forc= 0.000034
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 9.070985e-09
 largest correction to disp= 1.953912e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:27:13 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.76619e-07, limit = 1e-05, conv = true
(0) 09:27:13 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00371415, limit = 1e-05, conv = false
(0) 09:27:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 16 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000049
 time avg. forc= 0.000049
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.314285e-08
 largest correction to disp= 1.314285e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000049
 time avg. forc= 0.000049
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.314285e-08
 largest correction to disp= 2.926129e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:27:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.04355e-07, limit = 1e-05, conv = true
(0) 09:27:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0336709, limit = 1e-05, conv = false
(0) 09:27:52 [impl::SolverInterfaceImpl]:390 in advance: [0mit 17 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000049
 time avg. forc= 0.000049
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.296972e-08
 largest correction to disp= 1.296972e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000049
 time avg. forc= 0.000049
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.296972e-08
 largest correction to disp= 2.857745e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:28:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.63487e-07, limit = 1e-05, conv = true
(0) 09:28:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00159423, limit = 1e-05, conv = false
(0) 09:28:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 18 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000038
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.633527e-09
 largest correction to disp= 9.633527e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000038
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 9.633527e-09
 largest correction to disp= 1.997064e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:28:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.90913e-07, limit = 1e-05, conv = true
(0) 09:28:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0245897, limit = 1e-05, conv = false
(0) 09:28:46 [impl::SolverInterfaceImpl]:390 in advance: [0mit 19 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000040
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.027853e-08
 largest correction to disp= 1.027853e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000040
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.027853e-08
 largest correction to disp= 2.009912e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:29:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.63414e-08, limit = 1e-05, conv = true
(0) 09:29:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00533984, limit = 1e-05, conv = false
(0) 09:29:13 [impl::SolverInterfaceImpl]:390 in advance: [0mit 20 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000048
 time avg. forc= 0.000048
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.273901e-08
 largest correction to disp= 1.273901e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000048
 time avg. forc= 0.000048
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.273901e-08
 largest correction to disp= 2.775527e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:29:29 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.53931e-07, limit = 1e-05, conv = true
(0) 09:29:29 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0176702, limit = 1e-05, conv = false
(0) 09:29:40 [impl::SolverInterfaceImpl]:390 in advance: [0mit 21 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000050
 time avg. forc= 0.000050
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.337578e-08
 largest correction to disp= 1.337578e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000050
 time avg. forc= 0.000050
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.337578e-08
 largest correction to disp= 2.993301e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:29:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.10241e-07, limit = 1e-05, conv = true
(0) 09:29:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0045682, limit = 1e-05, conv = false
(0) 09:30:08 [impl::SolverInterfaceImpl]:390 in advance: [0mit 22 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000059
 time avg. forc= 0.000059
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.583315e-08
 largest correction to disp= 1.583315e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000059
 time avg. forc= 0.000059
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.583315e-08
 largest correction to disp= 3.899044e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:30:25 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.69123e-07, limit = 1e-05, conv = true
(0) 09:30:25 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0175109, limit = 1e-05, conv = false
(0) 09:30:36 [impl::SolverInterfaceImpl]:390 in advance: [0mit 23 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000057
 time avg. forc= 0.000057
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.537894e-08
 largest correction to disp= 1.537894e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000057
 time avg. forc= 0.000057
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.537894e-08
 largest correction to disp= 3.721689e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:30:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.06913e-07, limit = 1e-05, conv = true
(0) 09:30:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00325521, limit = 1e-05, conv = false
(0) 09:31:04 [impl::SolverInterfaceImpl]:390 in advance: [0mit 24 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000040
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.022745e-08
 largest correction to disp= 1.022745e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000040
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.022745e-08
 largest correction to disp= 2.008105e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:31:20 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.28295e-07, limit = 1e-05, conv = true
(0) 09:31:20 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0366939, limit = 1e-05, conv = false
(0) 09:31:31 [impl::SolverInterfaceImpl]:390 in advance: [0mit 25 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000034
 time avg. forc= 0.000034
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.148615e-09
 largest correction to disp= 9.148615e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000034
 time avg. forc= 0.000034
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 9.148615e-09
 largest correction to disp= 1.974627e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:31:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.94269e-07, limit = 1e-05, conv = true
(0) 09:31:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0131033, limit = 1e-05, conv = false
(0) 09:31:58 [impl::SolverInterfaceImpl]:390 in advance: [0mit 26 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000034
 time avg. forc= 0.000034
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.151632e-09
 largest correction to disp= 9.151632e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000034
 time avg. forc= 0.000034
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 9.151632e-09
 largest correction to disp= 1.990416e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:32:15 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.9196e-07, limit = 1e-05, conv = true
(0) 09:32:15 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000270716, limit = 1e-05, conv = false
(0) 09:32:26 [impl::SolverInterfaceImpl]:390 in advance: [0mit 27 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000036
 time avg. forc= 0.000036
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.471788e-09
 largest correction to disp= 9.471788e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000036
 time avg. forc= 0.000036
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 9.471788e-09
 largest correction to disp= 1.973419e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:32:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.14911e-07, limit = 1e-05, conv = true
(0) 09:32:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00522715, limit = 1e-05, conv = false
(0) 09:32:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 28 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000038
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.653319e-09
 largest correction to disp= 9.653319e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000038
 largest residual force= 0.000000 in node 37170 and dof 2
 largest increment of disp= 9.653319e-09
 largest correction to disp= 1.948607e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:33:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.74178e-07, limit = 1e-05, conv = true
(0) 09:33:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00306716, limit = 1e-05, conv = false
(0) 09:33:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 29 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000037
 time avg. forc= 0.000037
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.636793e-09
 largest correction to disp= 9.636793e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000037
 time avg. forc= 0.000037
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 9.636793e-09
 largest correction to disp= 1.941895e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:33:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.78576e-07, limit = 1e-05, conv = true
(0) 09:33:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00023112, limit = 1e-05, conv = false
(0) 09:33:50 [impl::SolverInterfaceImpl]:390 in advance: [0mit 30 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000038
 largest residual force= 0.005032 in node 33579 and dof 2
 largest increment of disp= 9.697892e-09
 largest correction to disp= 9.697892e-09 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000038
 largest residual force= 0.000000 in node 22160 and dof 3
 largest increment of disp= 9.697892e-09
 largest correction to disp= 2.387893e-09 in node 15428 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:34:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.6483e-07, limit = 1e-05, conv = true
(0) 09:34:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00087173, limit = 1e-05, conv = false
(0) 09:34:17 [impl::SolverInterfaceImpl]:390 in advance: [0mit 31 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000037
 time avg. forc= 0.000037
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.609663e-09
 largest correction to disp= 9.609663e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000037
 time avg. forc= 0.000037
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 9.609663e-09
 largest correction to disp= 1.961719e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:34:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.88169e-07, limit = 1e-05, conv = true
(0) 09:34:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00158641, limit = 1e-05, conv = false
(0) 09:34:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 32 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000037
 time avg. forc= 0.000037
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.552814e-09
 largest correction to disp= 9.552814e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000037
 time avg. forc= 0.000037
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 9.552814e-09
 largest correction to disp= 1.973097e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:35:00 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.00764e-07, limit = 1e-05, conv = true
(0) 09:35:00 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00098011, limit = 1e-05, conv = false
(0) 09:35:12 [impl::SolverInterfaceImpl]:390 in advance: [0mit 33 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000036
 time avg. forc= 0.000036
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.504076e-09
 largest correction to disp= 9.504076e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000036
 time avg. forc= 0.000036
 largest residual force= 0.000000 in node 20227 and dof 1
 largest increment of disp= 9.504076e-09
 largest correction to disp= 1.948318e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:35:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.10995e-07, limit = 1e-05, conv = true
(0) 09:35:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000787745, limit = 1e-05, conv = false
(0) 09:35:39 [impl::SolverInterfaceImpl]:390 in advance: [0mit 34 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000035
 time avg. forc= 0.000035
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.338469e-09
 largest correction to disp= 9.338469e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000035
 time avg. forc= 0.000035
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 9.338469e-09
 largest correction to disp= 1.933694e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:35:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.49906e-07, limit = 1e-05, conv = true
(0) 09:35:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00263124, limit = 1e-05, conv = false
(0) 09:36:08 [impl::SolverInterfaceImpl]:390 in advance: [0mit 35 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000036
 time avg. forc= 0.000036
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.500325e-09
 largest correction to disp= 9.500325e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000036
 time avg. forc= 0.000036
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 9.500325e-09
 largest correction to disp= 1.916089e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:36:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.07725e-07, limit = 1e-05, conv = true
(0) 09:36:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00273386, limit = 1e-05, conv = false
(0) 09:36:35 [impl::SolverInterfaceImpl]:390 in advance: [0mit 36 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000037
 time avg. forc= 0.000037
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.641349e-09
 largest correction to disp= 9.641349e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000037
 time avg. forc= 0.000037
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 9.641349e-09
 largest correction to disp= 1.913417e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:36:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.76543e-07, limit = 1e-05, conv = true
(0) 09:36:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00228934, limit = 1e-05, conv = false
(0) 09:37:03 [impl::SolverInterfaceImpl]:390 in advance: [0mit 37 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000037
 time avg. forc= 0.000037
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.510704e-09
 largest correction to disp= 9.510704e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000037
 time avg. forc= 0.000037
 largest residual force= 0.000000 in node 22798 and dof 2
 largest increment of disp= 9.510704e-09
 largest correction to disp= 1.994605e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:37:20 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.13493e-07, limit = 1e-05, conv = true
(0) 09:37:20 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00284738, limit = 1e-05, conv = false
(0) 09:37:31 [impl::SolverInterfaceImpl]:390 in advance: [0mit 38 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000036
 time avg. forc= 0.000036
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.479630e-09
 largest correction to disp= 9.479630e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000036
 time avg. forc= 0.000036
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 9.479630e-09
 largest correction to disp= 1.981068e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:37:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.18264e-07, limit = 1e-05, conv = true
(0) 09:37:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000519509, limit = 1e-05, conv = false
(0) 09:37:58 [impl::SolverInterfaceImpl]:390 in advance: [0mit 39 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000036
 time avg. forc= 0.000036
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.499438e-09
 largest correction to disp= 9.499438e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000036
 time avg. forc= 0.000036
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 9.499438e-09
 largest correction to disp= 1.960126e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:38:15 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.13061e-07, limit = 1e-05, conv = true
(0) 09:38:15 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000525905, limit = 1e-05, conv = false
(0) 09:38:26 [impl::SolverInterfaceImpl]:390 in advance: [0mit 40 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000036
 time avg. forc= 0.000036
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.514079e-09
 largest correction to disp= 9.514079e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000036
 time avg. forc= 0.000036
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 9.514079e-09
 largest correction to disp= 1.958490e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:38:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.10701e-07, limit = 1e-05, conv = true
(0) 09:38:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000174175, limit = 1e-05, conv = false
(0) 09:38:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 41 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000038
 largest residual force= 0.000000 in node 30005 and dof 1
 largest increment of disp= 9.747895e-09
 largest correction to disp= 9.747895e-09 in node 23381 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000038
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 9.747895e-09
 largest correction to disp= 2.013704e-14 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:39:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.6069e-07, limit = 1e-05, conv = true
(0) 09:39:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00340703, limit = 1e-05, conv = false
(0) 09:39:21 [impl::SolverInterfaceImpl]:390 in advance: [0mit 42 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000040
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.047821e-08
 largest correction to disp= 1.047821e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000040
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 31105 and dof 1
 largest increment of disp= 1.047821e-08
 largest correction to disp= 2.063184e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:39:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.1259e-08, limit = 1e-05, conv = true
(0) 09:39:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00575449, limit = 1e-05, conv = false
(0) 09:39:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 43 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000042
 time avg. forc= 0.000042
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.105956e-08
 largest correction to disp= 1.105956e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000042
 time avg. forc= 0.000042
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.105956e-08
 largest correction to disp= 2.233799e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:40:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.33339e-08, limit = 1e-05, conv = true
(0) 09:40:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00445436, limit = 1e-05, conv = false
(0) 09:40:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 44 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.121278e-08
 largest correction to disp= 1.121278e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.121278e-08
 largest correction to disp= 2.280447e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:40:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.36845e-09, limit = 1e-05, conv = true
(0) 09:40:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00113792, limit = 1e-05, conv = false
(0) 09:40:42 [impl::SolverInterfaceImpl]:390 in advance: [0mit 45 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.117314e-08
 largest correction to disp= 1.117314e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 1.117314e-08
 largest correction to disp= 2.269202e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:40:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.36144e-08, limit = 1e-05, conv = true
(0) 09:40:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000575091, limit = 1e-05, conv = false
(0) 09:41:10 [impl::SolverInterfaceImpl]:390 in advance: [0mit 46 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.127454e-08
 largest correction to disp= 1.127454e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.127454e-08
 largest correction to disp= 2.297970e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:41:27 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.85693e-09, limit = 1e-05, conv = true
(0) 09:41:27 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000723941, limit = 1e-05, conv = false
(0) 09:41:37 [impl::SolverInterfaceImpl]:390 in advance: [0mit 47 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.137046e-08
 largest correction to disp= 1.137046e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 22821 and dof 2
 largest increment of disp= 1.137046e-08
 largest correction to disp= 2.326273e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:41:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.68799e-09, limit = 1e-05, conv = true
(0) 09:41:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000769452, limit = 1e-05, conv = false
(0) 09:42:06 [impl::SolverInterfaceImpl]:390 in advance: [0mit 48 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.133047e-08
 largest correction to disp= 1.133047e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.133047e-08
 largest correction to disp= 2.314376e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:42:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.1154e-09, limit = 1e-05, conv = true
(0) 09:42:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000314068, limit = 1e-05, conv = false
(0) 09:42:33 [impl::SolverInterfaceImpl]:390 in advance: [0mit 49 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.121341e-08
 largest correction to disp= 1.121341e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 1.121341e-08
 largest correction to disp= 2.279180e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:42:49 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.00758e-08, limit = 1e-05, conv = true
(0) 09:42:49 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000974124, limit = 1e-05, conv = false
(0) 09:43:00 [impl::SolverInterfaceImpl]:390 in advance: [0mit 50 of 50 | dt# 1 | t 0 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 1 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=0.000000e+00
 actual step time=1.000000e-05
 actual total time=1.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 1.122595e-08
 largest correction to disp= 1.122595e-08 in node 13451 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 1.122595e-08
 largest correction to disp= 2.282998e-14 in node 32845 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:43:17 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.18765e-09, limit = 1e-05, conv = true
(0) 09:43:17 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.68743e-05, limit = 1e-05, conv = false
(0) 09:43:17 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 09:43:17 [cplscheme::BaseCouplingScheme]:320 in extrapolateData: [0mPerforming first order extrapolation
(0) 09:43:31 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 1.933546e-08
 work performed by the damping forces = 0.000000e+00
 netto work = 1.933546e-08

 actual energy: 
 internal energy = 2.916738e-09
 kinetic energy = 1.716165e-08
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 2.007839e-08

 energy increase = 2.007839e-08

 energy balance (absolute) = 7.429256e-10 
 energy balance (relative) = 3.842296 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 2 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000395
 time avg. forc= 0.000219
 largest residual force= 0.000000 in node 27272 and dof 3
 largest increment of disp= 1.046770e-07
 largest correction to disp= 1.046770e-07 in node 13023 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000395
 time avg. forc= 0.000219
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.046770e-07
 largest correction to disp= 6.043176e-13 in node 4728 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:43:48 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.03088e-05, limit = 1e-05, conv = false
(0) 09:43:48 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.644238, limit = 1e-05, conv = false
(0) 09:44:05 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.009488
 time avg. forc= 0.004765
 largest residual force= 0.000585 in node 30257 and dof 3
 largest increment of disp= 2.841403e-06
 largest correction to disp= 2.841403e-06 in node 5869 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.009487
 time avg. forc= 0.004765
 largest residual force= 0.000000 in node 5807 and dof 2
 largest increment of disp= 2.841403e-06
 largest correction to disp= 5.278558e-10 in node 4969 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:44:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000247106, limit = 1e-05, conv = false
(0) 09:44:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 16.1401, limit = 1e-05, conv = false
(0) 09:44:35 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000570
 time avg. forc= 0.000307
 largest residual force= 0.000000 in node 16258 and dof 2
 largest increment of disp= 1.064847e-07
 largest correction to disp= 1.064847e-07 in node 6266 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000570
 time avg. forc= 0.000307
 largest residual force= 0.000000 in node 717 and dof 2
 largest increment of disp= 1.064847e-07
 largest correction to disp= 9.732523e-13 in node 16132 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:44:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.82193e-06, limit = 1e-05, conv = true
(0) 09:44:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 16.3106, limit = 1e-05, conv = false
(0) 09:45:06 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.002683
 time avg. forc= 0.001363
 largest residual force= 0.000016 in node 4647 and dof 2
 largest increment of disp= 4.393938e-07
 largest correction to disp= 4.393938e-07 in node 9551 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.002683
 time avg. forc= 0.001363
 largest residual force= 0.000000 in node 10722 and dof 2
 largest increment of disp= 4.393938e-07
 largest correction to disp= 4.965028e-11 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:45:23 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.76016e-05, limit = 1e-05, conv = false
(0) 09:45:23 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.61325, limit = 1e-05, conv = false
(0) 09:45:38 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.002817
 time avg. forc= 0.001430
 largest residual force= 0.000018 in node 4647 and dof 2
 largest increment of disp= 4.641847e-07
 largest correction to disp= 4.641847e-07 in node 9551 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.002817
 time avg. forc= 0.001430
 largest residual force= 0.000000 in node 10722 and dof 2
 largest increment of disp= 4.641847e-07
 largest correction to disp= 5.545806e-11 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:45:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.05953e-05, limit = 1e-05, conv = false
(0) 09:45:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.246566, limit = 1e-05, conv = false
(0) 09:46:08 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000095
 time avg. forc= 0.000069
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 3.247007e-08
 largest correction to disp= 3.247007e-08 in node 9551 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000095
 time avg. forc= 0.000069
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 3.247007e-08
 largest correction to disp= 3.679827e-13 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:46:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.82236e-06, limit = 1e-05, conv = true
(0) 09:46:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.74426, limit = 1e-05, conv = false
(0) 09:46:36 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000403
 time avg. forc= 0.000223
 largest residual force= 0.000000 in node 16383 and dof 2
 largest increment of disp= 3.551149e-08
 largest correction to disp= 3.551149e-08 in node 5205 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000403
 time avg. forc= 0.000223
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.551149e-08
 largest correction to disp= 9.087015e-13 in node 23279 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:46:53 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.7711e-06, limit = 1e-05, conv = true
(0) 09:46:53 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.52313, limit = 1e-05, conv = false
(0) 09:47:06 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000225
 time avg. forc= 0.000134
 largest residual force= 0.004667 in node 30603 and dof 2
 largest increment of disp= 3.109247e-08
 largest correction to disp= 2.954681e-08 in node 5205 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000225
 time avg. forc= 0.000134
 largest residual force= 0.000000 in node 19078 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 2.348728e-09 in node 30603 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:47:23 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.36147e-06, limit = 1e-05, conv = true
(0) 09:47:23 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.175353, limit = 1e-05, conv = false
(0) 09:47:35 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000111
 time avg. forc= 0.000077
 largest residual force= 0.000000 in node 29795 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.954814e-08 in node 13084 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000111
 time avg. forc= 0.000077
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 2.299752e-13 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:47:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.42388e-06, limit = 1e-05, conv = true
(0) 09:47:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.140161, limit = 1e-05, conv = false
(0) 09:48:06 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000066
 time avg. forc= 0.000054
 largest residual force= 0.000000 in node 29795 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.411612e-08 in node 23303 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000066
 time avg. forc= 0.000054
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.618765e-13 in node 797 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:48:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.59556e-07, limit = 1e-05, conv = true
(0) 09:48:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.073774, limit = 1e-05, conv = false
(0) 09:48:35 [impl::SolverInterfaceImpl]:390 in advance: [0mit 11 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000047
 time avg. forc= 0.000045
 largest residual force= 0.000000 in node 29795 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.232800e-08 in node 23303 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000047
 time avg. forc= 0.000045
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.544765e-13 in node 12777 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:48:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.57564e-07, limit = 1e-05, conv = true
(0) 09:48:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0498284, limit = 1e-05, conv = false
(0) 09:49:06 [impl::SolverInterfaceImpl]:390 in advance: [0mit 12 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000042
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 29795 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.180902e-08 in node 23303 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000042
 time avg. forc= 0.000043
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.603064e-13 in node 12777 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:49:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.19317e-07, limit = 1e-05, conv = true
(0) 09:49:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00961906, limit = 1e-05, conv = false
(0) 09:49:35 [impl::SolverInterfaceImpl]:390 in advance: [0mit 13 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000040
 time avg. forc= 0.000042
 largest residual force= 0.000000 in node 29795 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.167593e-08 in node 23303 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000040
 time avg. forc= 0.000042
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.624124e-13 in node 12777 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:49:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.45667e-08, limit = 1e-05, conv = true
(0) 09:49:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00406224, limit = 1e-05, conv = false
(0) 09:50:06 [impl::SolverInterfaceImpl]:390 in advance: [0mit 14 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 29795 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.157930e-08 in node 23303 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.632911e-13 in node 12777 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:50:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.25064e-08, limit = 1e-05, conv = true
(0) 09:50:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00316224, limit = 1e-05, conv = false
(0) 09:50:35 [impl::SolverInterfaceImpl]:390 in advance: [0mit 15 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 29795 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.155836e-08 in node 23303 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.634466e-13 in node 12777 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:50:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.52115e-08, limit = 1e-05, conv = true
(0) 09:50:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000479772, limit = 1e-05, conv = false
(0) 09:51:06 [impl::SolverInterfaceImpl]:390 in advance: [0mit 16 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 29795 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.153402e-08 in node 23303 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.637486e-13 in node 12777 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:51:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.08516e-09, limit = 1e-05, conv = true
(0) 09:51:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000422096, limit = 1e-05, conv = false
(0) 09:51:35 [impl::SolverInterfaceImpl]:390 in advance: [0mit 17 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 29795 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.151636e-08 in node 23303 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.639903e-13 in node 12777 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:51:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.28063e-09, limit = 1e-05, conv = true
(0) 09:51:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000338162, limit = 1e-05, conv = false
(0) 09:52:05 [impl::SolverInterfaceImpl]:390 in advance: [0mit 18 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 29795 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.150912e-08 in node 23303 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.640757e-13 in node 12777 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:52:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.93436e-09, limit = 1e-05, conv = true
(0) 09:52:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000158086, limit = 1e-05, conv = false
(0) 09:52:35 [impl::SolverInterfaceImpl]:390 in advance: [0mit 19 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 29795 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.150734e-08 in node 23303 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.640756e-13 in node 12777 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:52:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.04299e-09, limit = 1e-05, conv = true
(0) 09:52:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.31013e-05, limit = 1e-05, conv = false
(0) 09:53:05 [impl::SolverInterfaceImpl]:390 in advance: [0mit 20 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 29795 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.150581e-08 in node 23303 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.640834e-13 in node 12777 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:53:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.73365e-10, limit = 1e-05, conv = true
(0) 09:53:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.67826e-05, limit = 1e-05, conv = false
(0) 09:53:34 [impl::SolverInterfaceImpl]:390 in advance: [0mit 21 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 29795 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.150412e-08 in node 23303 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.640968e-13 in node 12777 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:53:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.21616e-11, limit = 1e-05, conv = true
(0) 09:53:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.40059e-05, limit = 1e-05, conv = false
(0) 09:54:05 [impl::SolverInterfaceImpl]:390 in advance: [0mit 22 of 50 | dt# 2 | t 1e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 2 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-05
 actual step time=2.000000e-05
 actual total time=2.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 29795 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.150412e-08 in node 23303 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000039
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 27590 and dof 1
 largest increment of disp= 3.109247e-08
 largest correction to disp= 1.640979e-13 in node 12777 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:54:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.99047e-11, limit = 1e-05, conv = true
(0) 09:54:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.79046e-06, limit = 1e-05, conv = true
(0) 09:54:22 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 09:54:22 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 09:54:22 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 09:54:36 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 9.681707e-08
 work performed by the damping forces = 0.000000e+00
 netto work = 9.681707e-08

 actual energy: 
 internal energy = 5.678512e-09
 kinetic energy = 8.754580e-08
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 9.322432e-08

 energy increase = 9.322432e-08

 energy balance (absolute) = -3.592755e-09 
 energy balance (relative) = 3.710869 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 3 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000193
 time avg. forc= 0.000091
 largest residual force= 0.000000 in node 19854 and dof 2
 largest increment of disp= 6.046190e-08
 largest correction to disp= 6.046190e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000193
 time avg. forc= 0.000091
 largest residual force= 0.000000 in node 10722 and dof 2
 largest increment of disp= 6.046190e-08
 largest correction to disp= 1.122835e-12 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:54:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.66232e-06, limit = 1e-05, conv = true
(0) 09:54:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.312761, limit = 1e-05, conv = false
(0) 09:55:07 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.005045
 time avg. forc= 0.001709
 largest residual force= 0.000035 in node 4647 and dof 2
 largest increment of disp= 6.923105e-07
 largest correction to disp= 6.923105e-07 in node 4764 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.005045
 time avg. forc= 0.001709
 largest residual force= 0.000000 in node 5807 and dof 2
 largest increment of disp= 6.923105e-07
 largest correction to disp= 8.474474e-11 in node 6418 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:55:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.27731e-05, limit = 1e-05, conv = false
(0) 09:55:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.78436, limit = 1e-05, conv = false
(0) 09:55:42 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.002840
 time avg. forc= 0.000974
 largest residual force= 0.000068 in node 30257 and dof 3
 largest increment of disp= 8.266246e-07
 largest correction to disp= 8.266246e-07 in node 5175 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.002840
 time avg. forc= 0.000974
 largest residual force= 0.000000 in node 5807 and dof 2
 largest increment of disp= 8.266246e-07
 largest correction to disp= 7.830844e-11 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:55:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.84517e-05, limit = 1e-05, conv = false
(0) 09:55:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.3953, limit = 1e-05, conv = false
(0) 09:56:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001859
 time avg. forc= 0.000647
 largest residual force= 0.000033 in node 30257 and dof 3
 largest increment of disp= 5.446116e-07
 largest correction to disp= 5.446116e-07 in node 5175 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001859
 time avg. forc= 0.000647
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 5.446116e-07
 largest correction to disp= 2.797084e-11 in node 4969 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:56:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.3267e-05, limit = 1e-05, conv = false
(0) 09:56:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.11317, limit = 1e-05, conv = false
(0) 09:56:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000991
 time avg. forc= 0.000358
 largest residual force= 0.000007 in node 30257 and dof 3
 largest increment of disp= 2.564592e-07
 largest correction to disp= 2.564592e-07 in node 14951 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000991
 time avg. forc= 0.000358
 largest residual force= 0.000000 in node 22242 and dof 2
 largest increment of disp= 2.564592e-07
 largest correction to disp= 9.177835e-12 in node 22242 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:57:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.38919e-05, limit = 1e-05, conv = false
(0) 09:57:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.94353, limit = 1e-05, conv = false
(0) 09:57:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000496
 time avg. forc= 0.000193
 largest residual force= 0.000001 in node 30257 and dof 3
 largest increment of disp= 9.767119e-08
 largest correction to disp= 9.767119e-08 in node 14951 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000496
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 22242 and dof 2
 largest increment of disp= 9.767119e-08
 largest correction to disp= 2.453210e-12 in node 22242 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:57:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.32634e-06, limit = 1e-05, conv = true
(0) 09:57:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.01243, limit = 1e-05, conv = false
(0) 09:57:51 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000178
 time avg. forc= 0.000087
 largest residual force= 0.000000 in node 19854 and dof 2
 largest increment of disp= 5.996814e-08
 largest correction to disp= 5.996814e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000178
 time avg. forc= 0.000087
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 5.996814e-08
 largest correction to disp= 1.095805e-12 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:58:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.54436e-06, limit = 1e-05, conv = true
(0) 09:58:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.44074, limit = 1e-05, conv = false
(0) 09:58:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000149
 time avg. forc= 0.000077
 largest residual force= 0.000000 in node 5807 and dof 2
 largest increment of disp= 5.167787e-08
 largest correction to disp= 5.167787e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000149
 time avg. forc= 0.000077
 largest residual force= 0.000000 in node 10722 and dof 2
 largest increment of disp= 5.167787e-08
 largest correction to disp= 1.178141e-12 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:58:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.48487e-06, limit = 1e-05, conv = true
(0) 09:58:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.143585, limit = 1e-05, conv = false
(0) 09:58:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000057
 largest residual force= 0.000000 in node 14600 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 3.663978e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000057
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 7.847191e-13 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:59:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.68053e-06, limit = 1e-05, conv = true
(0) 09:59:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.119309, limit = 1e-05, conv = false
(0) 09:59:25 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000051
 time avg. forc= 0.000044
 largest residual force= 0.000000 in node 14600 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 2.909520e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000051
 time avg. forc= 0.000044
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 5.363792e-13 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 09:59:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.12246e-07, limit = 1e-05, conv = true
(0) 09:59:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0831534, limit = 1e-05, conv = false
(0) 09:59:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 11 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 2.286404e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000043
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 4.544765e-08
 largest correction to disp= 4.206601e-13 in node 9100 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:00:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.84151e-08, limit = 1e-05, conv = true
(0) 10:00:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0550975, limit = 1e-05, conv = false
(0) 10:00:26 [impl::SolverInterfaceImpl]:390 in advance: [0mit 12 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000040
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 2.124598e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000040
 time avg. forc= 0.000041
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 4.051393e-13 in node 9100 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:00:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.09613e-07, limit = 1e-05, conv = true
(0) 10:00:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0132352, limit = 1e-05, conv = false
(0) 10:00:56 [impl::SolverInterfaceImpl]:390 in advance: [0mit 13 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 2.200328e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 4.068725e-13 in node 9100 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:01:13 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.26514e-08, limit = 1e-05, conv = true
(0) 10:01:13 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00777264, limit = 1e-05, conv = false
(0) 10:01:27 [impl::SolverInterfaceImpl]:390 in advance: [0mit 14 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 2.222205e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 4.079084e-13 in node 9100 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:01:44 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.83281e-09, limit = 1e-05, conv = true
(0) 10:01:44 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0019745, limit = 1e-05, conv = false
(0) 10:01:58 [impl::SolverInterfaceImpl]:390 in advance: [0mit 15 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 2.224587e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 4.081330e-13 in node 9100 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:02:15 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.55951e-09, limit = 1e-05, conv = true
(0) 10:02:15 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000196756, limit = 1e-05, conv = false
(0) 10:02:29 [impl::SolverInterfaceImpl]:390 in advance: [0mit 16 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 2.221588e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 4.544765e-08
 largest correction to disp= 4.079640e-13 in node 9100 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:02:46 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.99744e-09, limit = 1e-05, conv = true
(0) 10:02:46 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000261054, limit = 1e-05, conv = false
(0) 10:03:02 [impl::SolverInterfaceImpl]:390 in advance: [0mit 17 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 2.220023e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 4.078686e-13 in node 9100 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:03:19 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.7139e-10, limit = 1e-05, conv = true
(0) 10:03:19 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000128778, limit = 1e-05, conv = false
(0) 10:03:34 [impl::SolverInterfaceImpl]:390 in advance: [0mit 18 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 2.219823e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 4.078566e-13 in node 9100 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:03:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.06795e-11, limit = 1e-05, conv = true
(0) 10:03:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.54296e-05, limit = 1e-05, conv = false
(0) 10:04:05 [impl::SolverInterfaceImpl]:390 in advance: [0mit 19 of 50 | dt# 3 | t 2e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 3 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-05
 actual step time=3.000000e-05
 actual total time=3.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 2.219807e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000038
 time avg. forc= 0.000040
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 4.544765e-08
 largest correction to disp= 4.078555e-13 in node 9100 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:04:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.92029e-11, limit = 1e-05, conv = true
(0) 10:04:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.36396e-06, limit = 1e-05, conv = true
(0) 10:04:22 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 10:04:22 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 10:04:22 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 10:04:37 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 1.725709e-07
 work performed by the damping forces = 0.000000e+00
 netto work = 1.725709e-07

 actual energy: 
 internal energy = 1.163728e-08
 kinetic energy = 1.600355e-07
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 1.716728e-07

 energy increase = 1.716728e-07

 energy balance (absolute) = -8.981572e-10 
 energy balance (relative) = 0.520457 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 4 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000227
 time avg. forc= 0.000087
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 5.428290e-08 in node 9253 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000227
 time avg. forc= 0.000087
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 7.004197e-13 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:04:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.82884e-06, limit = 1e-05, conv = true
(0) 10:04:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.369264, limit = 1e-05, conv = false
(0) 10:05:09 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.007858
 time avg. forc= 0.001994
 largest residual force= 0.000098 in node 33836 and dof 3
 largest increment of disp= 1.083585e-06
 largest correction to disp= 1.083585e-06 in node 5650 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.007857
 time avg. forc= 0.001994
 largest residual force= 0.000000 in node 9059 and dof 2
 largest increment of disp= 1.083585e-06
 largest correction to disp= 1.780185e-10 in node 4956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:05:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.08473e-05, limit = 1e-05, conv = false
(0) 10:05:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.79058, limit = 1e-05, conv = false
(0) 10:05:41 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001300
 time avg. forc= 0.000355
 largest residual force= 0.000006 in node 30257 and dof 3
 largest increment of disp= 2.745815e-07
 largest correction to disp= 2.745815e-07 in node 5548 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001300
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 8550 and dof 3
 largest increment of disp= 2.745815e-07
 largest correction to disp= 7.374435e-12 in node 4838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:05:57 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.16941e-05, limit = 1e-05, conv = false
(0) 10:05:57 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.39667, limit = 1e-05, conv = false
(0) 10:06:14 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001307
 time avg. forc= 0.000357
 largest residual force= 0.000011 in node 30257 and dof 3
 largest increment of disp= 3.707758e-07
 largest correction to disp= 3.707758e-07 in node 5175 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001307
 time avg. forc= 0.000357
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 3.707758e-07
 largest correction to disp= 1.165278e-11 in node 4725 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:06:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.5901e-05, limit = 1e-05, conv = false
(0) 10:06:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.00667, limit = 1e-05, conv = false
(0) 10:06:47 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000958
 time avg. forc= 0.000269
 largest residual force= 0.000005 in node 27272 and dof 3
 largest increment of disp= 2.583543e-07
 largest correction to disp= 2.583543e-07 in node 5175 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000958
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 2.583543e-07
 largest correction to disp= 5.393940e-12 in node 4725 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:07:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.46354e-05, limit = 1e-05, conv = false
(0) 10:07:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.726913, limit = 1e-05, conv = false
(0) 10:07:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000446
 time avg. forc= 0.000141
 largest residual force= 0.000001 in node 27272 and dof 3
 largest increment of disp= 1.146356e-07
 largest correction to disp= 1.146356e-07 in node 5165 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000446
 time avg. forc= 0.000141
 largest residual force= 0.000000 in node 23279 and dof 2
 largest increment of disp= 1.146356e-07
 largest correction to disp= 1.071183e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:07:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.07401e-05, limit = 1e-05, conv = false
(0) 10:07:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.944608, limit = 1e-05, conv = false
(0) 10:07:51 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000131
 time avg. forc= 0.000063
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 3.111736e-08 in node 13100 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000131
 time avg. forc= 0.000063
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 7.561810e-13 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:08:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.36622e-06, limit = 1e-05, conv = true
(0) 10:08:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.595289, limit = 1e-05, conv = false
(0) 10:08:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000048
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 1.663152e-08 in node 23302 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000048
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 7.878647e-13 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:08:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.6374e-07, limit = 1e-05, conv = true
(0) 10:08:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.144714, limit = 1e-05, conv = false
(0) 10:08:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000065
 time avg. forc= 0.000046
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 1.564424e-08 in node 23302 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000065
 time avg. forc= 0.000046
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 7.969764e-13 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:09:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.09119e-08, limit = 1e-05, conv = true
(0) 10:09:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0155879, limit = 1e-05, conv = false
(0) 10:09:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000064
 time avg. forc= 0.000046
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 1.695337e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000064
 time avg. forc= 0.000046
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 8.085610e-13 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:09:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.24695e-07, limit = 1e-05, conv = true
(0) 10:09:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00968314, limit = 1e-05, conv = false
(0) 10:09:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 11 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000066
 time avg. forc= 0.000046
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 1.622442e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000066
 time avg. forc= 0.000046
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 8.040206e-13 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:10:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.3304e-07, limit = 1e-05, conv = true
(0) 10:10:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00608228, limit = 1e-05, conv = false
(0) 10:10:26 [impl::SolverInterfaceImpl]:390 in advance: [0mit 12 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000067
 time avg. forc= 0.000047
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 1.563504e-08 in node 23302 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000067
 time avg. forc= 0.000047
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 7.997302e-13 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:10:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.63955e-08, limit = 1e-05, conv = true
(0) 10:10:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.005015, limit = 1e-05, conv = false
(0) 10:10:57 [impl::SolverInterfaceImpl]:390 in advance: [0mit 13 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000068
 time avg. forc= 0.000047
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 1.578425e-08 in node 23302 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000068
 time avg. forc= 0.000047
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 7.973933e-13 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:11:14 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.50873e-08, limit = 1e-05, conv = true
(0) 10:11:14 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0026894, limit = 1e-05, conv = false
(0) 10:11:28 [impl::SolverInterfaceImpl]:390 in advance: [0mit 14 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000068
 time avg. forc= 0.000047
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 1.582813e-08 in node 23302 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000068
 time avg. forc= 0.000047
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 7.966449e-13 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:11:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.95177e-09, limit = 1e-05, conv = true
(0) 10:11:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000792367, limit = 1e-05, conv = false
(0) 10:11:59 [impl::SolverInterfaceImpl]:390 in advance: [0mit 15 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000068
 time avg. forc= 0.000047
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 1.583880e-08 in node 23302 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000068
 time avg. forc= 0.000047
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 7.964327e-13 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:12:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.30612e-11, limit = 1e-05, conv = true
(0) 10:12:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000196757, limit = 1e-05, conv = false
(0) 10:12:31 [impl::SolverInterfaceImpl]:390 in advance: [0mit 16 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000068
 time avg. forc= 0.000047
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 1.583882e-08 in node 23302 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000068
 time avg. forc= 0.000047
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 7.964159e-13 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:12:48 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.42494e-11, limit = 1e-05, conv = true
(0) 10:12:48 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.17608e-05, limit = 1e-05, conv = false
(0) 10:13:04 [impl::SolverInterfaceImpl]:390 in advance: [0mit 17 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000068
 time avg. forc= 0.000047
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 1.583906e-08 in node 23302 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000068
 time avg. forc= 0.000047
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 7.964250e-13 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:13:21 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.56005e-11, limit = 1e-05, conv = true
(0) 10:13:21 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.06753e-05, limit = 1e-05, conv = false
(0) 10:13:36 [impl::SolverInterfaceImpl]:390 in advance: [0mit 18 of 50 | dt# 4 | t 3e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 4 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-05
 actual step time=4.000000e-05
 actual total time=4.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000068
 time avg. forc= 0.000047
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 1.583877e-08 in node 23302 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000068
 time avg. forc= 0.000047
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 7.531215e-08
 largest correction to disp= 7.964260e-13 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:13:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.2514e-11, limit = 1e-05, conv = true
(0) 10:13:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.74904e-06, limit = 1e-05, conv = true
(0) 10:13:52 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 10:13:52 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 10:13:52 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 10:14:08 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 3.245801e-07
 work performed by the damping forces = 0.000000e+00
 netto work = 3.245801e-07

 actual energy: 
 internal energy = 2.342716e-08
 kinetic energy = 3.013021e-07
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 3.247293e-07

 energy increase = 3.247293e-07

 energy balance (absolute) = 1.491884e-10 
 energy balance (relative) = 0.045964 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 5 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000200
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 6.768837e-08 in node 5175 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000200
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 5807 and dof 2
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.317366e-12 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:14:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.91405e-06, limit = 1e-05, conv = true
(0) 10:14:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.290609, limit = 1e-05, conv = false
(0) 10:14:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.038295
 time avg. forc= 0.007697
 largest residual force= 0.014655 in node 30257 and dof 3
 largest increment of disp= 1.259141e-05
 largest correction to disp= 1.259141e-05 in node 5175 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.038298
 time avg. forc= 0.007697
 largest residual force= 0.000000 in node 5807 and dof 2
 largest increment of disp= 1.259141e-05
 largest correction to disp= 1.458320e-08 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:15:00 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00116434, limit = 1e-05, conv = false
(0) 10:15:00 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 74.4701, limit = 1e-05, conv = false
(0) 10:15:18 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.037637
 time avg. forc= 0.007565
 largest residual force= 0.010195 in node 30257 and dof 3
 largest increment of disp= 1.050714e-05
 largest correction to disp= 1.050714e-05 in node 5175 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.037625
 time avg. forc= 0.007562
 largest residual force= 0.000000 in node 10722 and dof 2
 largest increment of disp= 1.050714e-05
 largest correction to disp= 1.398379e-08 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:15:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00102628, limit = 1e-05, conv = false
(0) 10:15:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 143.803, limit = 1e-05, conv = false
(0) 10:15:49 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.002392
 time avg. forc= 0.000516
 largest residual force= 0.000009 in node 33836 and dof 3
 largest increment of disp= 3.169214e-07
 largest correction to disp= 3.169214e-07 in node 14806 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.002392
 time avg. forc= 0.000516
 largest residual force= 0.000000 in node 14780 and dof 2
 largest increment of disp= 3.169214e-07
 largest correction to disp= 1.818336e-11 in node 5239 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:16:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.00139e-05, limit = 1e-05, conv = false
(0) 10:16:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 68.3939, limit = 1e-05, conv = false
(0) 10:16:22 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000745
 time avg. forc= 0.000186
 largest residual force= 0.000002 in node 30257 and dof 3
 largest increment of disp= 1.702072e-07
 largest correction to disp= 1.702072e-07 in node 13489 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000745
 time avg. forc= 0.000186
 largest residual force= 0.000000 in node 22242 and dof 2
 largest increment of disp= 1.702072e-07
 largest correction to disp= 6.377532e-12 in node 22242 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:16:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.54066e-05, limit = 1e-05, conv = false
(0) 10:16:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.03483, limit = 1e-05, conv = false
(0) 10:16:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001213
 time avg. forc= 0.000280
 largest residual force= 0.000011 in node 30257 and dof 3
 largest increment of disp= 3.775497e-07
 largest correction to disp= 3.775497e-07 in node 14541 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001213
 time avg. forc= 0.000280
 largest residual force= 0.000000 in node 10722 and dof 2
 largest increment of disp= 3.775497e-07
 largest correction to disp= 2.053251e-11 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:17:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.45588e-05, limit = 1e-05, conv = false
(0) 10:17:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.38422, limit = 1e-05, conv = false
(0) 10:17:27 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001012
 time avg. forc= 0.000240
 largest residual force= 0.000005 in node 10722 and dof 2
 largest increment of disp= 2.892832e-07
 largest correction to disp= 2.892832e-07 in node 14541 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001012
 time avg. forc= 0.000240
 largest residual force= 0.000000 in node 10722 and dof 2
 largest increment of disp= 2.892832e-07
 largest correction to disp= 1.696530e-11 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:17:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.46312e-05, limit = 1e-05, conv = false
(0) 10:17:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.850595, limit = 1e-05, conv = false
(0) 10:17:59 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000950
 time avg. forc= 0.000228
 largest residual force= 0.000005 in node 10722 and dof 2
 largest increment of disp= 2.587167e-07
 largest correction to disp= 2.587167e-07 in node 14541 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000950
 time avg. forc= 0.000228
 largest residual force= 0.000000 in node 10722 and dof 2
 largest increment of disp= 2.587167e-07
 largest correction to disp= 1.496410e-11 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:18:15 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.15467e-05, limit = 1e-05, conv = false
(0) 10:18:15 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.213916, limit = 1e-05, conv = false
(0) 10:18:29 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000690
 time avg. forc= 0.000175
 largest residual force= 0.000001 in node 15070 and dof 2
 largest increment of disp= 9.648010e-08
 largest correction to disp= 7.333630e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000690
 time avg. forc= 0.000175
 largest residual force= 0.000000 in node 10722 and dof 2
 largest increment of disp= 9.648010e-08
 largest correction to disp= 4.044370e-12 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:18:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.67423e-06, limit = 1e-05, conv = true
(0) 10:18:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.23041, limit = 1e-05, conv = false
(0) 10:19:02 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000736
 time avg. forc= 0.000185
 largest residual force= 0.000004 in node 30257 and dof 3
 largest increment of disp= 2.064962e-07
 largest correction to disp= 2.064962e-07 in node 36248 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000736
 time avg. forc= 0.000185
 largest residual force= 0.000000 in node 31971 and dof 3
 largest increment of disp= 2.064962e-07
 largest correction to disp= 3.987973e-12 in node 4725 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:19:19 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.09723e-05, limit = 1e-05, conv = false
(0) 10:19:19 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.61437, limit = 1e-05, conv = false
(0) 10:19:33 [impl::SolverInterfaceImpl]:390 in advance: [0mit 11 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000054
 time avg. forc= 0.000048
 largest residual force= 0.001303 in node 34080 and dof 2
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.075484e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000054
 time avg. forc= 0.000048
 largest residual force= 0.000000 in node 19025 and dof 2
 largest increment of disp= 9.648010e-08
 largest correction to disp= 4.563768e-10 in node 34080 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:19:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.08005e-06, limit = 1e-05, conv = true
(0) 10:19:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.34087, limit = 1e-05, conv = false
(0) 10:20:05 [impl::SolverInterfaceImpl]:390 in advance: [0mit 12 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000067
 time avg. forc= 0.000051
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.961677e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000067
 time avg. forc= 0.000051
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.085605e-12 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:20:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.04619e-07, limit = 1e-05, conv = true
(0) 10:20:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0493926, limit = 1e-05, conv = false
(0) 10:20:35 [impl::SolverInterfaceImpl]:390 in advance: [0mit 13 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000080
 time avg. forc= 0.000053
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.117686e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000080
 time avg. forc= 0.000053
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.082764e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:20:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.56789e-07, limit = 1e-05, conv = true
(0) 10:20:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0321449, limit = 1e-05, conv = false
(0) 10:21:07 [impl::SolverInterfaceImpl]:390 in advance: [0mit 14 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000076
 time avg. forc= 0.000053
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.392596e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000076
 time avg. forc= 0.000053
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.096265e-12 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:21:23 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.66093e-07, limit = 1e-05, conv = true
(0) 10:21:23 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0171794, limit = 1e-05, conv = false
(0) 10:21:37 [impl::SolverInterfaceImpl]:390 in advance: [0mit 15 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000073
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.353375e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000073
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.099497e-12 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:21:53 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.7088e-08, limit = 1e-05, conv = true
(0) 10:21:53 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00812392, limit = 1e-05, conv = false
(0) 10:22:08 [impl::SolverInterfaceImpl]:390 in advance: [0mit 16 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.340462e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.100776e-12 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:22:25 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.32409e-09, limit = 1e-05, conv = true
(0) 10:22:25 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00279072, limit = 1e-05, conv = false
(0) 10:22:39 [impl::SolverInterfaceImpl]:390 in advance: [0mit 17 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.337070e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.101022e-12 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:22:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.5222e-09, limit = 1e-05, conv = true
(0) 10:22:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000668072, limit = 1e-05, conv = false
(0) 10:23:11 [impl::SolverInterfaceImpl]:390 in advance: [0mit 18 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.338366e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.100892e-12 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:23:27 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.6548e-10, limit = 1e-05, conv = true
(0) 10:23:27 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000272116, limit = 1e-05, conv = false
(0) 10:23:41 [impl::SolverInterfaceImpl]:390 in advance: [0mit 19 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.338241e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.100920e-12 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:23:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.0153e-11, limit = 1e-05, conv = true
(0) 10:23:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.8932e-05, limit = 1e-05, conv = false
(0) 10:24:13 [impl::SolverInterfaceImpl]:390 in advance: [0mit 20 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.338319e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 4541 and dof 3
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.100908e-12 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:24:29 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.19934e-10, limit = 1e-05, conv = true
(0) 10:24:29 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.11019e-05, limit = 1e-05, conv = false
(0) 10:24:43 [impl::SolverInterfaceImpl]:390 in advance: [0mit 21 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.338194e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.100924e-12 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:24:59 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.24013e-10, limit = 1e-05, conv = true
(0) 10:24:59 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.08267e-05, limit = 1e-05, conv = false
(0) 10:25:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 22 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.338316e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.100910e-12 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:25:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.99761e-10, limit = 1e-05, conv = true
(0) 10:25:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.93087e-05, limit = 1e-05, conv = false
(0) 10:25:46 [impl::SolverInterfaceImpl]:390 in advance: [0mit 23 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.338208e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.100921e-12 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:26:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.68761e-10, limit = 1e-05, conv = true
(0) 10:26:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.54228e-05, limit = 1e-05, conv = false
(0) 10:26:17 [impl::SolverInterfaceImpl]:390 in advance: [0mit 24 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.338299e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.100913e-12 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:26:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.37801e-10, limit = 1e-05, conv = true
(0) 10:26:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.11009e-05, limit = 1e-05, conv = false
(0) 10:26:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 25 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.338226e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.100918e-12 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:27:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.08315e-10, limit = 1e-05, conv = true
(0) 10:27:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.69056e-05, limit = 1e-05, conv = false
(0) 10:27:18 [impl::SolverInterfaceImpl]:390 in advance: [0mit 26 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.338282e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.100915e-12 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:27:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.99435e-11, limit = 1e-05, conv = true
(0) 10:27:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.2914e-05, limit = 1e-05, conv = false
(0) 10:27:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 27 of 50 | dt# 5 | t 4e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 5 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-05
 actual step time=5.000000e-05
 actual total time=5.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 2.338243e-08 in node 14600 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000072
 time avg. forc= 0.000052
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 9.648010e-08
 largest correction to disp= 1.100916e-12 in node 691 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:28:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.16178e-11, limit = 1e-05, conv = true
(0) 10:28:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.0405e-06, limit = 1e-05, conv = true
(0) 10:28:05 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 10:28:05 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 10:28:05 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 10:28:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 5.071988e-07
 work performed by the damping forces = 0.000000e+00
 netto work = 5.071988e-07

 actual energy: 
 internal energy = 3.541917e-08
 kinetic energy = 4.670543e-07
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 5.024734e-07

 energy increase = 5.024734e-07

 energy balance (absolute) = -4.725355e-09 
 energy balance (relative) = 0.931657 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 6 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000211
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 6.035357e-08 in node 35304 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000211
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.361826e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:28:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.84575e-06, limit = 1e-05, conv = true
(0) 10:28:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.354673, limit = 1e-05, conv = false
(0) 10:28:52 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001524
 time avg. forc= 0.000297
 largest residual force= 0.000029 in node 30257 and dof 3
 largest increment of disp= 5.626408e-07
 largest correction to disp= 5.626408e-07 in node 5175 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001524
 time avg. forc= 0.000297
 largest residual force= 0.000000 in node 30257 and dof 3
 largest increment of disp= 5.626408e-07
 largest correction to disp= 2.554652e-11 in node 4969 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:29:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.03546e-05, limit = 1e-05, conv = false
(0) 10:29:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.44291, limit = 1e-05, conv = false
(0) 10:29:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000209
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 8.540476e-08 in node 5494 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000209
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 6316 and dof 2
 largest increment of disp= 1.283297e-07
 largest correction to disp= 2.738023e-12 in node 6316 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:29:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.49855e-06, limit = 1e-05, conv = true
(0) 10:29:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.10097, limit = 1e-05, conv = false
(0) 10:29:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000088
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.528534e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000088
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.326158e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:30:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.13755e-07, limit = 1e-05, conv = true
(0) 10:30:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.381151, limit = 1e-05, conv = false
(0) 10:30:26 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000091
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.526005e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000091
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.319476e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:30:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.98795e-08, limit = 1e-05, conv = true
(0) 10:30:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00981322, limit = 1e-05, conv = false
(0) 10:30:56 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.541463e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.322474e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:31:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.24237e-08, limit = 1e-05, conv = true
(0) 10:31:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00244183, limit = 1e-05, conv = false
(0) 10:31:26 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000091
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.549354e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000091
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.321400e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:31:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.69189e-09, limit = 1e-05, conv = true
(0) 10:31:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00293978, limit = 1e-05, conv = false
(0) 10:31:57 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.552484e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.321884e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:32:13 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.4261e-09, limit = 1e-05, conv = true
(0) 10:32:13 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000466927, limit = 1e-05, conv = false
(0) 10:32:27 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.553385e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.321966e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:32:44 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.41986e-09, limit = 1e-05, conv = true
(0) 10:32:44 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000160822, limit = 1e-05, conv = false
(0) 10:32:59 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.553929e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.321986e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:33:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.42753e-10, limit = 1e-05, conv = true
(0) 10:33:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000114192, limit = 1e-05, conv = false
(0) 10:33:30 [impl::SolverInterfaceImpl]:390 in advance: [0mit 11 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.553805e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.321951e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:33:48 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.42809e-10, limit = 1e-05, conv = true
(0) 10:33:48 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.35237e-05, limit = 1e-05, conv = false
(0) 10:34:02 [impl::SolverInterfaceImpl]:390 in advance: [0mit 12 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.553868e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 26061 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.322003e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:34:19 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.7515e-10, limit = 1e-05, conv = true
(0) 10:34:19 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.61461e-05, limit = 1e-05, conv = false
(0) 10:34:32 [impl::SolverInterfaceImpl]:390 in advance: [0mit 13 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.553820e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.321937e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:34:49 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.18605e-10, limit = 1e-05, conv = true
(0) 10:34:49 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.40869e-05, limit = 1e-05, conv = false
(0) 10:35:03 [impl::SolverInterfaceImpl]:390 in advance: [0mit 14 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.553867e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.322024e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:35:20 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.05493e-10, limit = 1e-05, conv = true
(0) 10:35:20 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.6715e-05, limit = 1e-05, conv = false
(0) 10:35:33 [impl::SolverInterfaceImpl]:390 in advance: [0mit 15 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.553814e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.321909e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:35:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.4239e-10, limit = 1e-05, conv = true
(0) 10:35:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00011615, limit = 1e-05, conv = false
(0) 10:36:05 [impl::SolverInterfaceImpl]:390 in advance: [0mit 16 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.553878e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.322059e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:36:21 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.2385e-09, limit = 1e-05, conv = true
(0) 10:36:21 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000153347, limit = 1e-05, conv = false
(0) 10:36:34 [impl::SolverInterfaceImpl]:390 in advance: [0mit 17 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000091
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.553797e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000091
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.321864e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:36:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.60894e-09, limit = 1e-05, conv = true
(0) 10:36:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00019995, limit = 1e-05, conv = false
(0) 10:37:05 [impl::SolverInterfaceImpl]:390 in advance: [0mit 18 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.553844e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.321972e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:37:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.34847e-11, limit = 1e-05, conv = true
(0) 10:37:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000110672, limit = 1e-05, conv = false
(0) 10:37:40 [impl::SolverInterfaceImpl]:390 in advance: [0mit 19 of 50 | dt# 6 | t 5e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 6 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=5.000000e-05
 actual step time=6.000000e-05
 actual total time=6.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.553841e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000090
 time avg. forc= 0.000058
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.283297e-07
 largest correction to disp= 1.321977e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:37:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.69953e-11, limit = 1e-05, conv = true
(0) 10:37:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.50787e-06, limit = 1e-05, conv = true
(0) 10:37:56 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 10:37:56 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 10:37:56 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 10:38:12 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 7.058195e-07
 work performed by the damping forces = 0.000000e+00
 netto work = 7.058195e-07

 actual energy: 
 internal energy = 5.386419e-08
 kinetic energy = 6.521737e-07
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 7.060378e-07

 energy increase = 7.060378e-07

 energy balance (absolute) = 2.183419e-10 
 energy balance (relative) = 0.030935 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 7 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000222
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 6.728357e-08 in node 5670 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000222
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 33474 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.852064e-12 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:38:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.86193e-06, limit = 1e-05, conv = true
(0) 10:38:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.340337, limit = 1e-05, conv = false
(0) 10:38:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 7 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001114
 time avg. forc= 0.000209
 largest residual force= 0.176102 in node 29207 and dof 2
 largest increment of disp= 3.930227e-07
 largest correction to disp= 3.930227e-07 in node 5175 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001110
 time avg. forc= 0.000208
 largest residual force= 0.000039 in node 14132 and dof 2
 largest increment of disp= 3.930227e-07
 largest correction to disp= 1.026241e-07 in node 14132 and dof 2

 no convergence

 iteration 3

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001110
 time avg. forc= 0.000208
 largest residual force= 0.000000 in node 14132 and dof 2
 largest increment of disp= 3.930227e-07
 largest correction to disp= 7.719573e-11 in node 14132 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:39:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.70221e-05, limit = 1e-05, conv = false
(0) 10:39:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.58851, limit = 1e-05, conv = false
(0) 10:39:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 7 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000081
 time avg. forc= 0.000061
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 2.578067e-08 in node 36248 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000081
 time avg. forc= 0.000061
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.374474e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:39:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.72539e-06, limit = 1e-05, conv = true
(0) 10:39:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.94057, limit = 1e-05, conv = false
(0) 10:39:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 7 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000085
 time avg. forc= 0.000062
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 2.744498e-08 in node 36248 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000085
 time avg. forc= 0.000062
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.377710e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:40:13 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.90202e-06, limit = 1e-05, conv = true
(0) 10:40:13 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0155998, limit = 1e-05, conv = false
(0) 10:40:26 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 7 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000102
 time avg. forc= 0.000065
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.826877e-08 in node 13226 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000102
 time avg. forc= 0.000065
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.484545e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:40:44 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.47424e-08, limit = 1e-05, conv = true
(0) 10:40:44 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.126964, limit = 1e-05, conv = false
(0) 10:40:58 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 7 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000099
 time avg. forc= 0.000064
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.834269e-08 in node 13226 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000099
 time avg. forc= 0.000064
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.477791e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:41:14 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.91063e-08, limit = 1e-05, conv = true
(0) 10:41:14 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00450958, limit = 1e-05, conv = false
(0) 10:41:28 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 7 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.856979e-08 in node 13226 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.478665e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:41:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.40469e-08, limit = 1e-05, conv = true
(0) 10:41:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00234023, limit = 1e-05, conv = false
(0) 10:41:59 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 7 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.863940e-08 in node 13226 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.479064e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:42:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.41319e-09, limit = 1e-05, conv = true
(0) 10:42:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000779913, limit = 1e-05, conv = false
(0) 10:42:30 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 7 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.864862e-08 in node 13226 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.479008e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:42:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.47314e-09, limit = 1e-05, conv = true
(0) 10:42:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.66836e-05, limit = 1e-05, conv = false
(0) 10:43:03 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 7 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.865462e-08 in node 13226 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.479098e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:43:19 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.16508e-10, limit = 1e-05, conv = true
(0) 10:43:19 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.66329e-05, limit = 1e-05, conv = false
(0) 10:43:33 [impl::SolverInterfaceImpl]:390 in advance: [0mit 11 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 7 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.865842e-08 in node 13226 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.479141e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:43:49 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.69064e-10, limit = 1e-05, conv = true
(0) 10:43:49 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.39185e-05, limit = 1e-05, conv = false
(0) 10:44:04 [impl::SolverInterfaceImpl]:390 in advance: [0mit 12 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 7 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.865059e-08 in node 13226 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.479038e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:44:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.03273e-09, limit = 1e-05, conv = true
(0) 10:44:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000119058, limit = 1e-05, conv = false
(0) 10:44:35 [impl::SolverInterfaceImpl]:390 in advance: [0mit 13 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 7 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.866109e-08 in node 13226 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.479180e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:44:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.2896e-09, limit = 1e-05, conv = true
(0) 10:44:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000162939, limit = 1e-05, conv = false
(0) 10:45:07 [impl::SolverInterfaceImpl]:390 in advance: [0mit 14 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 7 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.864854e-08 in node 13226 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.479007e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:45:23 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.52207e-09, limit = 1e-05, conv = true
(0) 10:45:23 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0001975, limit = 1e-05, conv = false
(0) 10:45:37 [impl::SolverInterfaceImpl]:390 in advance: [0mit 15 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 7 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.865497e-08 in node 13226 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.479096e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:45:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.02835e-11, limit = 1e-05, conv = true
(0) 10:45:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000101956, limit = 1e-05, conv = false
(0) 10:46:09 [impl::SolverInterfaceImpl]:390 in advance: [0mit 16 of 50 | dt# 7 | t 6e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 7 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=6.000000e-05
 actual step time=7.000000e-05
 actual total time=7.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.865558e-08 in node 13226 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000100
 time avg. forc= 0.000064
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.587557e-07
 largest correction to disp= 1.479106e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:46:25 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.54526e-11, limit = 1e-05, conv = true
(0) 10:46:25 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.73485e-06, limit = 1e-05, conv = true
(0) 10:46:25 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 10:46:25 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 10:46:25 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 10:46:40 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 8 | t 7e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 9.690100e-07
 work performed by the damping forces = 0.000000e+00
 netto work = 9.690100e-07

 actual energy: 
 internal energy = 7.825127e-08
 kinetic energy = 8.874631e-07
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 9.657144e-07

 energy increase = 9.657144e-07

 energy balance (absolute) = -3.295580e-09 
 energy balance (relative) = 0.340098 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 8 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=7.000000e-05
 actual step time=8.000000e-05
 actual total time=8.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000214
 time avg. forc= 0.000083
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 6.881473e-08 in node 5323 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000214
 time avg. forc= 0.000083
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.555620e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:46:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.84713e-06, limit = 1e-05, conv = true
(0) 10:46:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.329177, limit = 1e-05, conv = false
(0) 10:47:13 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 8 | t 7e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 8 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=7.000000e-05
 actual step time=8.000000e-05
 actual total time=8.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000812
 time avg. forc= 0.000158
 largest residual force= 0.000006 in node 30257 and dof 3
 largest increment of disp= 2.663396e-07
 largest correction to disp= 2.663396e-07 in node 5494 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000812
 time avg. forc= 0.000158
 largest residual force= 0.000000 in node 6316 and dof 2
 largest increment of disp= 2.663396e-07
 largest correction to disp= 1.010573e-11 in node 6316 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:47:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.79376e-05, limit = 1e-05, conv = false
(0) 10:47:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.53665, limit = 1e-05, conv = false
(0) 10:47:46 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 8 | t 7e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 8 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=7.000000e-05
 actual step time=8.000000e-05
 actual total time=8.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000114
 time avg. forc= 0.000070
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 3.320069e-08 in node 4966 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000114
 time avg. forc= 0.000070
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.585783e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:48:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.1902e-06, limit = 1e-05, conv = true
(0) 10:48:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.16925, limit = 1e-05, conv = false
(0) 10:48:18 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 8 | t 7e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 8 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=7.000000e-05
 actual step time=8.000000e-05
 actual total time=8.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000102
 time avg. forc= 0.000069
 largest residual force= 0.000791 in node 31722 and dof 2
 largest increment of disp= 1.867014e-07
 largest correction to disp= 2.850668e-08 in node 4966 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000102
 time avg. forc= 0.000069
 largest residual force= 0.000000 in node 3254 and dof 2
 largest increment of disp= 1.867014e-07
 largest correction to disp= 6.501863e-10 in node 3254 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:48:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.84539e-06, limit = 1e-05, conv = true
(0) 10:48:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0305887, limit = 1e-05, conv = false
(0) 10:48:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 8 | t 7e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 8 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=7.000000e-05
 actual step time=8.000000e-05
 actual total time=8.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000098
 time avg. forc= 0.000069
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.657560e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000098
 time avg. forc= 0.000069
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.546087e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:49:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.96582e-07, limit = 1e-05, conv = true
(0) 10:49:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.103434, limit = 1e-05, conv = false
(0) 10:49:20 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 8 | t 7e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 8 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=7.000000e-05
 actual step time=8.000000e-05
 actual total time=8.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000106
 time avg. forc= 0.000069
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.794624e-08 in node 5323 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000106
 time avg. forc= 0.000069
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.531013e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:49:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.19246e-07, limit = 1e-05, conv = true
(0) 10:49:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0276078, limit = 1e-05, conv = false
(0) 10:49:51 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 8 | t 7e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 8 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=7.000000e-05
 actual step time=8.000000e-05
 actual total time=8.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000102
 time avg. forc= 0.000069
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.691988e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000102
 time avg. forc= 0.000069
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.537627e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:50:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.02489e-09, limit = 1e-05, conv = true
(0) 10:50:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0089903, limit = 1e-05, conv = false
(0) 10:50:21 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 8 | t 7e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 8 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=7.000000e-05
 actual step time=8.000000e-05
 actual total time=8.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000102
 time avg. forc= 0.000069
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.691912e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000102
 time avg. forc= 0.000069
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.537967e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:50:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.0736e-08, limit = 1e-05, conv = true
(0) 10:50:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000420285, limit = 1e-05, conv = false
(0) 10:50:52 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 8 | t 7e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 8 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=7.000000e-05
 actual step time=8.000000e-05
 actual total time=8.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000102
 time avg. forc= 0.000069
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.691998e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000102
 time avg. forc= 0.000069
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.537521e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:51:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.84122e-10, limit = 1e-05, conv = true
(0) 10:51:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000712637, limit = 1e-05, conv = false
(0) 10:51:22 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 8 | t 7e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 8 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=7.000000e-05
 actual step time=8.000000e-05
 actual total time=8.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000102
 time avg. forc= 0.000069
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.692125e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000102
 time avg. forc= 0.000069
 largest residual force= 0.000000 in node 11014 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.537533e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:51:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.11926e-12, limit = 1e-05, conv = true
(0) 10:51:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.0312e-05, limit = 1e-05, conv = false
(0) 10:51:52 [impl::SolverInterfaceImpl]:390 in advance: [0mit 11 of 50 | dt# 8 | t 7e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 8 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=7.000000e-05
 actual step time=8.000000e-05
 actual total time=8.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000102
 time avg. forc= 0.000069
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.692123e-08 in node 23279 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000102
 time avg. forc= 0.000069
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.867014e-07
 largest correction to disp= 1.537531e-12 in node 13226 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:52:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.63116e-12, limit = 1e-05, conv = true
(0) 10:52:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.84566e-06, limit = 1e-05, conv = true
(0) 10:52:09 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 10:52:09 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 10:52:09 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 10:52:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 1.255878e-06
 work performed by the damping forces = 0.000000e+00
 netto work = 1.255878e-06

 actual energy: 
 internal energy = 1.064583e-07
 kinetic energy = 1.147709e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 1.254167e-06

 energy increase = 1.254167e-06

 energy balance (absolute) = -1.711187e-09 
 energy balance (relative) = 0.136254 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 9 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000226
 time avg. forc= 0.000086
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 6.984009e-08 in node 5349 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000226
 time avg. forc= 0.000086
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.650360e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:52:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.85013e-06, limit = 1e-05, conv = true
(0) 10:52:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.337275, limit = 1e-05, conv = false
(0) 10:52:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000109
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.236742e-08 in node 780 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000109
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.595718e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:53:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.18689e-07, limit = 1e-05, conv = true
(0) 10:53:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.330791, limit = 1e-05, conv = false
(0) 10:53:25 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000111
 time avg. forc= 0.000074
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.445863e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000111
 time avg. forc= 0.000074
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.585266e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:53:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.2145e-08, limit = 1e-05, conv = true
(0) 10:53:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0150866, limit = 1e-05, conv = false
(0) 10:53:56 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000109
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.484619e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000109
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.588697e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:54:13 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.64002e-08, limit = 1e-05, conv = true
(0) 10:54:13 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00582314, limit = 1e-05, conv = false
(0) 10:54:29 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.488437e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589218e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:54:46 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.00642e-09, limit = 1e-05, conv = true
(0) 10:54:46 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00196971, limit = 1e-05, conv = false
(0) 10:55:00 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.484522e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589375e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:55:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.79783e-09, limit = 1e-05, conv = true
(0) 10:55:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000226472, limit = 1e-05, conv = false
(0) 10:55:31 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483648e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589393e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:55:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.02214e-10, limit = 1e-05, conv = true
(0) 10:55:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.61106e-05, limit = 1e-05, conv = false
(0) 10:56:02 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483227e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589383e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:56:19 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.00349e-10, limit = 1e-05, conv = true
(0) 10:56:19 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.06918e-05, limit = 1e-05, conv = false
(0) 10:56:33 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483558e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589369e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:56:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.30723e-10, limit = 1e-05, conv = true
(0) 10:56:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.63996e-05, limit = 1e-05, conv = false
(0) 10:57:05 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483286e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589379e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:57:21 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.94351e-10, limit = 1e-05, conv = true
(0) 10:57:21 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.16221e-05, limit = 1e-05, conv = false
(0) 10:57:35 [impl::SolverInterfaceImpl]:390 in advance: [0mit 11 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483520e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589371e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:57:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.70815e-10, limit = 1e-05, conv = true
(0) 10:57:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.01414e-05, limit = 1e-05, conv = false
(0) 10:58:07 [impl::SolverInterfaceImpl]:390 in advance: [0mit 12 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483313e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589378e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:58:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.54463e-10, limit = 1e-05, conv = true
(0) 10:58:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.02878e-05, limit = 1e-05, conv = false
(0) 10:58:38 [impl::SolverInterfaceImpl]:390 in advance: [0mit 13 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483499e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589372e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:58:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.42931e-10, limit = 1e-05, conv = true
(0) 10:58:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.13894e-05, limit = 1e-05, conv = false
(0) 10:59:10 [impl::SolverInterfaceImpl]:390 in advance: [0mit 14 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483330e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589377e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:59:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.35085e-10, limit = 1e-05, conv = true
(0) 10:59:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.30976e-05, limit = 1e-05, conv = false
(0) 10:59:40 [impl::SolverInterfaceImpl]:390 in advance: [0mit 15 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483484e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589373e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 10:59:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.30414e-10, limit = 1e-05, conv = true
(0) 10:59:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.52536e-05, limit = 1e-05, conv = false
(0) 11:00:12 [impl::SolverInterfaceImpl]:390 in advance: [0mit 16 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483345e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589376e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:00:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.2878e-10, limit = 1e-05, conv = true
(0) 11:00:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.78122e-05, limit = 1e-05, conv = false
(0) 11:00:42 [impl::SolverInterfaceImpl]:390 in advance: [0mit 17 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483469e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589374e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:00:59 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.30305e-10, limit = 1e-05, conv = true
(0) 11:00:59 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.07952e-05, limit = 1e-05, conv = false
(0) 11:01:14 [impl::SolverInterfaceImpl]:390 in advance: [0mit 18 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483361e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589375e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:01:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.35314e-10, limit = 1e-05, conv = true
(0) 11:01:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.42696e-05, limit = 1e-05, conv = false
(0) 11:01:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 19 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483451e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589375e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:02:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.44323e-10, limit = 1e-05, conv = true
(0) 11:02:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.83433e-05, limit = 1e-05, conv = false
(0) 11:02:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 20 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483381e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589374e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:02:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.5804e-10, limit = 1e-05, conv = true
(0) 11:02:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.31689e-05, limit = 1e-05, conv = false
(0) 11:02:47 [impl::SolverInterfaceImpl]:390 in advance: [0mit 21 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483428e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589376e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:03:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.7742e-10, limit = 1e-05, conv = true
(0) 11:03:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.8954e-05, limit = 1e-05, conv = false
(0) 11:03:18 [impl::SolverInterfaceImpl]:390 in advance: [0mit 22 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483409e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589372e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:03:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.0373e-10, limit = 1e-05, conv = true
(0) 11:03:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.59768e-05, limit = 1e-05, conv = false
(0) 11:03:49 [impl::SolverInterfaceImpl]:390 in advance: [0mit 23 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483394e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589378e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:04:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.38663e-10, limit = 1e-05, conv = true
(0) 11:04:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.4606e-05, limit = 1e-05, conv = false
(0) 11:04:20 [impl::SolverInterfaceImpl]:390 in advance: [0mit 24 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483450e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589370e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:04:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.84467e-10, limit = 1e-05, conv = true
(0) 11:04:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.53272e-05, limit = 1e-05, conv = false
(0) 11:04:51 [impl::SolverInterfaceImpl]:390 in advance: [0mit 25 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483342e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589380e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:05:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.44109e-10, limit = 1e-05, conv = true
(0) 11:05:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.87758e-05, limit = 1e-05, conv = false
(0) 11:05:22 [impl::SolverInterfaceImpl]:390 in advance: [0mit 26 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483515e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589368e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:05:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.21491e-10, limit = 1e-05, conv = true
(0) 11:05:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.57784e-05, limit = 1e-05, conv = false
(0) 11:05:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 27 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483260e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589383e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:06:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.21708e-10, limit = 1e-05, conv = true
(0) 11:06:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000117406, limit = 1e-05, conv = false
(0) 11:06:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 28 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483619e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 22798 and dof 2
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589365e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:06:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.5139e-10, limit = 1e-05, conv = true
(0) 11:06:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000145043, limit = 1e-05, conv = false
(0) 11:06:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 29 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483128e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589387e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:07:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.19144e-10, limit = 1e-05, conv = true
(0) 11:07:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000180474, limit = 1e-05, conv = false
(0) 11:07:25 [impl::SolverInterfaceImpl]:390 in advance: [0mit 30 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483788e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589360e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:07:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.03613e-09, limit = 1e-05, conv = true
(0) 11:07:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000226, limit = 1e-05, conv = false
(0) 11:07:56 [impl::SolverInterfaceImpl]:390 in advance: [0mit 31 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.482912e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589392e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:08:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.31679e-09, limit = 1e-05, conv = true
(0) 11:08:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000284586, limit = 1e-05, conv = false
(0) 11:08:26 [impl::SolverInterfaceImpl]:390 in advance: [0mit 32 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.484066e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589355e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:08:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.67984e-09, limit = 1e-05, conv = true
(0) 11:08:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000360058, limit = 1e-05, conv = false
(0) 11:08:57 [impl::SolverInterfaceImpl]:390 in advance: [0mit 33 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483401e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589374e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:09:14 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.46615e-11, limit = 1e-05, conv = true
(0) 11:09:14 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000201123, limit = 1e-05, conv = false
(0) 11:09:28 [impl::SolverInterfaceImpl]:390 in advance: [0mit 34 of 50 | dt# 9 | t 8e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 9 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=8.000000e-05
 actual step time=9.000000e-05
 actual total time=9.000000e-05

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.483418e-08 in node 5346 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000108
 time avg. forc= 0.000073
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.177768e-07
 largest correction to disp= 1.589376e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:09:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.80491e-11, limit = 1e-05, conv = true
(0) 11:09:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.74668e-06, limit = 1e-05, conv = true
(0) 11:09:45 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 11:09:45 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 11:09:45 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 11:09:59 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 1.574175e-06
 work performed by the damping forces = 0.000000e+00
 netto work = 1.574175e-06

 actual energy: 
 internal energy = 1.411451e-07
 kinetic energy = 1.429718e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 1.570864e-06

 energy increase = 1.570864e-06

 energy balance (absolute) = -3.311241e-09 
 energy balance (relative) = 0.210348 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 10 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000234
 time avg. forc= 0.000089
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 7.833208e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000234
 time avg. forc= 0.000089
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.657329e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:10:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.82946e-06, limit = 1e-05, conv = true
(0) 11:10:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.335548, limit = 1e-05, conv = false
(0) 11:10:32 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.347691e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.648223e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:10:48 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.61784e-07, limit = 1e-05, conv = true
(0) 11:10:48 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.324109, limit = 1e-05, conv = false
(0) 11:11:04 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000115
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.215237e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000115
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.691769e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:11:20 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.35411e-07, limit = 1e-05, conv = true
(0) 11:11:20 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0269921, limit = 1e-05, conv = false
(0) 11:11:35 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000115
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.064373e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000115
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.695229e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:11:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.9626e-08, limit = 1e-05, conv = true
(0) 11:11:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00576822, limit = 1e-05, conv = false
(0) 11:12:07 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000115
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.048840e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000115
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.696849e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:12:23 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.98823e-09, limit = 1e-05, conv = true
(0) 11:12:23 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00158549, limit = 1e-05, conv = false
(0) 11:12:38 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.047212e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697547e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:12:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.50901e-09, limit = 1e-05, conv = true
(0) 11:12:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000577926, limit = 1e-05, conv = false
(0) 11:13:10 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.047691e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697730e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:13:27 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.3444e-10, limit = 1e-05, conv = true
(0) 11:13:27 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000174591, limit = 1e-05, conv = false
(0) 11:13:41 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.048321e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697790e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:13:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.40233e-10, limit = 1e-05, conv = true
(0) 11:13:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.91377e-05, limit = 1e-05, conv = false
(0) 11:14:13 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.047924e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697780e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:14:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.57585e-10, limit = 1e-05, conv = true
(0) 11:14:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.84887e-05, limit = 1e-05, conv = false
(0) 11:14:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.048435e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697789e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:15:00 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.06896e-10, limit = 1e-05, conv = true
(0) 11:15:00 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.35214e-05, limit = 1e-05, conv = false
(0) 11:15:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 11 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.047807e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697777e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:15:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.67805e-10, limit = 1e-05, conv = true
(0) 11:15:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.26943e-05, limit = 1e-05, conv = false
(0) 11:15:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 12 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.048560e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697793e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:16:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.40856e-10, limit = 1e-05, conv = true
(0) 11:16:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.44409e-05, limit = 1e-05, conv = false
(0) 11:16:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 13 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.047667e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697773e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:16:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.2879e-10, limit = 1e-05, conv = true
(0) 11:16:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.90044e-05, limit = 1e-05, conv = false
(0) 11:16:50 [impl::SolverInterfaceImpl]:390 in advance: [0mit 14 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.048721e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 24102 and dof 3
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697797e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:17:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.3517e-10, limit = 1e-05, conv = true
(0) 11:17:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000106933, limit = 1e-05, conv = false
(0) 11:17:21 [impl::SolverInterfaceImpl]:390 in advance: [0mit 15 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.047477e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697767e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:17:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.64336e-10, limit = 1e-05, conv = true
(0) 11:17:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000128937, limit = 1e-05, conv = false
(0) 11:17:52 [impl::SolverInterfaceImpl]:390 in advance: [0mit 16 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.048947e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697804e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:18:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.21553e-10, limit = 1e-05, conv = true
(0) 11:18:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000155899, limit = 1e-05, conv = false
(0) 11:18:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 17 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.047206e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697760e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:18:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.11324e-09, limit = 1e-05, conv = true
(0) 11:18:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000188911, limit = 1e-05, conv = false
(0) 11:18:56 [impl::SolverInterfaceImpl]:390 in advance: [0mit 18 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.049273e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697812e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:19:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.34724e-09, limit = 1e-05, conv = true
(0) 11:19:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000229318, limit = 1e-05, conv = false
(0) 11:19:27 [impl::SolverInterfaceImpl]:390 in advance: [0mit 19 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.046812e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697750e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:19:44 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.63316e-09, limit = 1e-05, conv = true
(0) 11:19:44 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000278775, limit = 1e-05, conv = false
(0) 11:19:59 [impl::SolverInterfaceImpl]:390 in advance: [0mit 20 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.048138e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697783e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:20:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.26712e-11, limit = 1e-05, conv = true
(0) 11:20:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000153071, limit = 1e-05, conv = false
(0) 11:20:31 [impl::SolverInterfaceImpl]:390 in advance: [0mit 21 of 50 | dt# 10 | t 9e-05 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 10 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=9.000000e-05
 actual step time=1.000000e-04
 actual total time=1.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 2.048165e-08 in node 5900 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000116
 time avg. forc= 0.000078
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.467405e-07
 largest correction to disp= 1.697784e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:20:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.39664e-11, limit = 1e-05, conv = true
(0) 11:20:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.62357e-06, limit = 1e-05, conv = true
(0) 11:20:47 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 11:20:47 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 11:20:47 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 11:21:04 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 1.948425e-06
 work performed by the damping forces = 0.000000e+00
 netto work = 1.948425e-06

 actual energy: 
 internal energy = 1.824534e-07
 kinetic energy = 1.765295e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 1.947749e-06

 energy increase = 1.947749e-06

 energy balance (absolute) = -6.763536e-10 
 energy balance (relative) = 0.034713 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 11 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000234
 time avg. forc= 0.000092
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 7.373727e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000234
 time avg. forc= 0.000092
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.654048e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:21:20 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.79616e-06, limit = 1e-05, conv = true
(0) 11:21:20 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.309133, limit = 1e-05, conv = false
(0) 11:21:34 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000128
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.973166e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000128
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.690907e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:21:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.46929e-07, limit = 1e-05, conv = true
(0) 11:21:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.317975, limit = 1e-05, conv = false
(0) 11:22:06 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.813862e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.683715e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:22:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.5253e-08, limit = 1e-05, conv = true
(0) 11:22:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0159573, limit = 1e-05, conv = false
(0) 11:22:37 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.763116e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.679018e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:22:53 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.1575e-08, limit = 1e-05, conv = true
(0) 11:22:53 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00629317, limit = 1e-05, conv = false
(0) 11:23:08 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.769704e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.678210e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:23:25 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.15942e-08, limit = 1e-05, conv = true
(0) 11:23:25 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00183212, limit = 1e-05, conv = false
(0) 11:23:39 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776086e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677781e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:23:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.0206e-10, limit = 1e-05, conv = true
(0) 11:23:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000463676, limit = 1e-05, conv = false
(0) 11:24:11 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776309e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677749e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:24:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.339e-10, limit = 1e-05, conv = true
(0) 11:24:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.64186e-05, limit = 1e-05, conv = false
(0) 11:24:42 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776583e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677751e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:24:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.66866e-10, limit = 1e-05, conv = true
(0) 11:24:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.21253e-05, limit = 1e-05, conv = false
(0) 11:25:14 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000404 in node 4395 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776373e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 30603 and dof 2
 largest increment of disp= 2.797632e-07
 largest correction to disp= 5.181913e-10 in node 4395 and dof 1

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:25:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.60918e-10, limit = 1e-05, conv = true
(0) 11:25:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.3641e-05, limit = 1e-05, conv = false
(0) 11:25:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776592e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677756e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:26:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.8344e-10, limit = 1e-05, conv = true
(0) 11:26:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.77393e-05, limit = 1e-05, conv = false
(0) 11:26:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 11 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776328e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677740e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:26:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.21209e-10, limit = 1e-05, conv = true
(0) 11:26:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.27751e-05, limit = 1e-05, conv = false
(0) 11:26:46 [impl::SolverInterfaceImpl]:390 in advance: [0mit 12 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776656e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677759e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:27:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.71697e-10, limit = 1e-05, conv = true
(0) 11:27:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.88843e-05, limit = 1e-05, conv = false
(0) 11:27:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 13 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776246e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677737e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:27:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.35562e-10, limit = 1e-05, conv = true
(0) 11:27:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.64233e-05, limit = 1e-05, conv = false
(0) 11:27:47 [impl::SolverInterfaceImpl]:390 in advance: [0mit 14 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776756e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677763e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:28:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.15314e-10, limit = 1e-05, conv = true
(0) 11:28:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.58152e-05, limit = 1e-05, conv = false
(0) 11:28:17 [impl::SolverInterfaceImpl]:390 in advance: [0mit 15 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776126e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677733e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:28:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.1509e-10, limit = 1e-05, conv = true
(0) 11:28:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.76311e-05, limit = 1e-05, conv = false
(0) 11:28:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 16 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776900e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677767e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:29:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.40791e-10, limit = 1e-05, conv = true
(0) 11:29:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.26799e-05, limit = 1e-05, conv = false
(0) 11:29:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 17 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.775955e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677728e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:29:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.00462e-10, limit = 1e-05, conv = true
(0) 11:29:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00010211, limit = 1e-05, conv = false
(0) 11:29:50 [impl::SolverInterfaceImpl]:390 in advance: [0mit 18 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.777103e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677772e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:30:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.00486e-09, limit = 1e-05, conv = true
(0) 11:30:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000127529, limit = 1e-05, conv = false
(0) 11:30:21 [impl::SolverInterfaceImpl]:390 in advance: [0mit 19 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.775713e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677722e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:30:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.26822e-09, limit = 1e-05, conv = true
(0) 11:30:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000161153, limit = 1e-05, conv = false
(0) 11:30:52 [impl::SolverInterfaceImpl]:390 in advance: [0mit 20 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.777390e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677778e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:31:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.60927e-09, limit = 1e-05, conv = true
(0) 11:31:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000205984, limit = 1e-05, conv = false
(0) 11:31:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 21 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776517e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677752e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:31:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.2912e-11, limit = 1e-05, conv = true
(0) 11:31:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00011528, limit = 1e-05, conv = false
(0) 11:31:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 22 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776421e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677746e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:32:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.95976e-11, limit = 1e-05, conv = true
(0) 11:32:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.47093e-05, limit = 1e-05, conv = false
(0) 11:32:25 [impl::SolverInterfaceImpl]:390 in advance: [0mit 23 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776538e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677753e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:32:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.08636e-10, limit = 1e-05, conv = true
(0) 11:32:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.78508e-05, limit = 1e-05, conv = false
(0) 11:32:56 [impl::SolverInterfaceImpl]:390 in advance: [0mit 24 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776397e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677744e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:33:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.31369e-10, limit = 1e-05, conv = true
(0) 11:33:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.17142e-05, limit = 1e-05, conv = false
(0) 11:33:27 [impl::SolverInterfaceImpl]:390 in advance: [0mit 25 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776566e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677754e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:33:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.58657e-10, limit = 1e-05, conv = true
(0) 11:33:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.64293e-05, limit = 1e-05, conv = false
(0) 11:33:57 [impl::SolverInterfaceImpl]:390 in advance: [0mit 26 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776363e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677742e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:34:14 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.9151e-10, limit = 1e-05, conv = true
(0) 11:34:14 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.2159e-05, limit = 1e-05, conv = false
(0) 11:34:31 [impl::SolverInterfaceImpl]:390 in advance: [0mit 27 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776607e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677757e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:34:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.31121e-10, limit = 1e-05, conv = true
(0) 11:34:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.91071e-05, limit = 1e-05, conv = false
(0) 11:35:02 [impl::SolverInterfaceImpl]:390 in advance: [0mit 28 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.003643 in node 26592 and dof 3
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776313e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 36383 and dof 2
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.061856e-09 in node 26592 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:35:19 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.78908e-10, limit = 1e-05, conv = true
(0) 11:35:19 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.75209e-05, limit = 1e-05, conv = false
(0) 11:35:33 [impl::SolverInterfaceImpl]:390 in advance: [0mit 29 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776667e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677761e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:35:49 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.36575e-10, limit = 1e-05, conv = true
(0) 11:35:49 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.77e-05, limit = 1e-05, conv = false
(0) 11:36:04 [impl::SolverInterfaceImpl]:390 in advance: [0mit 30 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776242e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677734e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:36:21 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.06171e-10, limit = 1e-05, conv = true
(0) 11:36:21 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.00054e-05, limit = 1e-05, conv = false
(0) 11:36:35 [impl::SolverInterfaceImpl]:390 in advance: [0mit 31 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776753e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677767e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:36:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.90166e-10, limit = 1e-05, conv = true
(0) 11:36:52 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.48729e-05, limit = 1e-05, conv = false
(0) 11:37:07 [impl::SolverInterfaceImpl]:390 in advance: [0mit 32 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776137e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677727e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:37:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.91537e-10, limit = 1e-05, conv = true
(0) 11:37:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000102828, limit = 1e-05, conv = false
(0) 11:37:38 [impl::SolverInterfaceImpl]:390 in advance: [0mit 33 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776880e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677776e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:37:55 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.13872e-10, limit = 1e-05, conv = true
(0) 11:37:55 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000124503, limit = 1e-05, conv = false
(0) 11:38:11 [impl::SolverInterfaceImpl]:390 in advance: [0mit 34 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.775985e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677716e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:38:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.61502e-10, limit = 1e-05, conv = true
(0) 11:38:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000150662, limit = 1e-05, conv = false
(0) 11:38:42 [impl::SolverInterfaceImpl]:390 in advance: [0mit 35 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.777064e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677790e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:38:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.03965e-09, limit = 1e-05, conv = true
(0) 11:38:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000182224, limit = 1e-05, conv = false
(0) 11:39:14 [impl::SolverInterfaceImpl]:390 in advance: [0mit 36 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.775761e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677699e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:39:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.25461e-09, limit = 1e-05, conv = true
(0) 11:39:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000220298, limit = 1e-05, conv = false
(0) 11:39:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 37 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.777335e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677810e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:40:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.51399e-09, limit = 1e-05, conv = true
(0) 11:40:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000266218, limit = 1e-05, conv = false
(0) 11:40:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 38 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776474e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677748e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:40:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.29228e-12, limit = 1e-05, conv = true
(0) 11:40:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000145644, limit = 1e-05, conv = false
(0) 11:40:47 [impl::SolverInterfaceImpl]:390 in advance: [0mit 39 of 50 | dt# 11 | t 0.0001 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 11 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.000000e-04
 actual step time=1.100000e-04
 actual total time=1.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.776475e-08 in node 5896 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000127
 time avg. forc= 0.000082
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 2.797632e-07
 largest correction to disp= 1.677749e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:41:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.21153e-12, limit = 1e-05, conv = true
(0) 11:41:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.48857e-06, limit = 1e-05, conv = true
(0) 11:41:03 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 11:41:03 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 11:41:03 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 11:41:18 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 2.360488e-06
 work performed by the damping forces = 0.000000e+00
 netto work = 2.360488e-06

 actual energy: 
 internal energy = 2.309838e-07
 kinetic energy = 2.124584e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 2.355568e-06

 energy increase = 2.355568e-06

 energy balance (absolute) = -4.920304e-09 
 energy balance (relative) = 0.208444 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 12 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000248
 time avg. forc= 0.000096
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 8.684915e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000248
 time avg. forc= 0.000096
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.651669e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:41:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.80554e-06, limit = 1e-05, conv = true
(0) 11:41:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.32908, limit = 1e-05, conv = false
(0) 11:41:49 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000150
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.492682e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000150
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.591272e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:42:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.78125e-07, limit = 1e-05, conv = true
(0) 11:42:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.313897, limit = 1e-05, conv = false
(0) 11:42:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000148
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.457206e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000148
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.595490e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:42:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.74258e-08, limit = 1e-05, conv = true
(0) 11:42:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.018904, limit = 1e-05, conv = false
(0) 11:42:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000148
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.470010e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000148
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.601551e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:43:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.9499e-08, limit = 1e-05, conv = true
(0) 11:43:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00808407, limit = 1e-05, conv = false
(0) 11:43:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.489874e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.602995e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:43:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.24198e-09, limit = 1e-05, conv = true
(0) 11:43:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00315309, limit = 1e-05, conv = false
(0) 11:43:50 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.487602e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603538e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:44:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.88299e-10, limit = 1e-05, conv = true
(0) 11:44:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00044891, limit = 1e-05, conv = false
(0) 11:44:20 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.487528e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603611e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:44:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.18406e-10, limit = 1e-05, conv = true
(0) 11:44:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.56366e-05, limit = 1e-05, conv = false
(0) 11:44:51 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.487568e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603562e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:45:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.92816e-10, limit = 1e-05, conv = true
(0) 11:45:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.53022e-05, limit = 1e-05, conv = false
(0) 11:45:21 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.487534e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603597e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:45:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.8909e-10, limit = 1e-05, conv = true
(0) 11:45:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.85366e-05, limit = 1e-05, conv = false
(0) 11:45:51 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.487580e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603570e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:46:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.95666e-10, limit = 1e-05, conv = true
(0) 11:46:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.87008e-05, limit = 1e-05, conv = false
(0) 11:46:22 [impl::SolverInterfaceImpl]:390 in advance: [0mit 11 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.487506e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603590e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:46:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.11118e-10, limit = 1e-05, conv = true
(0) 11:46:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.17429e-05, limit = 1e-05, conv = false
(0) 11:46:52 [impl::SolverInterfaceImpl]:390 in advance: [0mit 12 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.487621e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603578e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:47:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.36309e-10, limit = 1e-05, conv = true
(0) 11:47:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.71709e-05, limit = 1e-05, conv = false
(0) 11:47:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 13 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.487452e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603582e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:47:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.73043e-10, limit = 1e-05, conv = true
(0) 11:47:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.52377e-05, limit = 1e-05, conv = false
(0) 11:47:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 14 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.487691e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603587e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:48:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.23824e-10, limit = 1e-05, conv = true
(0) 11:48:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.64103e-05, limit = 1e-05, conv = false
(0) 11:48:25 [impl::SolverInterfaceImpl]:390 in advance: [0mit 15 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.487361e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603571e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:48:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.91957e-10, limit = 1e-05, conv = true
(0) 11:48:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.13184e-05, limit = 1e-05, conv = false
(0) 11:48:56 [impl::SolverInterfaceImpl]:390 in advance: [0mit 16 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.487808e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603600e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:49:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.81831e-10, limit = 1e-05, conv = true
(0) 11:49:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00010081, limit = 1e-05, conv = false
(0) 11:49:26 [impl::SolverInterfaceImpl]:390 in advance: [0mit 17 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.487210e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603555e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:49:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.99318e-10, limit = 1e-05, conv = true
(0) 11:49:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000126042, limit = 1e-05, conv = false
(0) 11:49:57 [impl::SolverInterfaceImpl]:390 in advance: [0mit 18 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.488003e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603619e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:50:13 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.52286e-10, limit = 1e-05, conv = true
(0) 11:50:13 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00015858, limit = 1e-05, conv = false
(0) 11:50:28 [impl::SolverInterfaceImpl]:390 in advance: [0mit 19 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.486958e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603532e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:50:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.51271e-10, limit = 1e-05, conv = true
(0) 11:50:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000200535, limit = 1e-05, conv = false
(0) 11:50:59 [impl::SolverInterfaceImpl]:390 in advance: [0mit 20 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.488329e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603648e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:51:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.21035e-09, limit = 1e-05, conv = true
(0) 11:51:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000254734, limit = 1e-05, conv = false
(0) 11:51:30 [impl::SolverInterfaceImpl]:390 in advance: [0mit 21 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.486534e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603495e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:51:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.5483e-09, limit = 1e-05, conv = true
(0) 11:51:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000324943, limit = 1e-05, conv = false
(0) 11:52:02 [impl::SolverInterfaceImpl]:390 in advance: [0mit 22 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.487565e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603583e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:52:18 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.82176e-11, limit = 1e-05, conv = true
(0) 11:52:18 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000182713, limit = 1e-05, conv = false
(0) 11:52:33 [impl::SolverInterfaceImpl]:390 in advance: [0mit 23 of 50 | dt# 12 | t 0.00011 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 12 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.100000e-04
 actual step time=1.200000e-04
 actual total time=1.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000001 in node 23279 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 2.487535e-08 in node 5903 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000147
 time avg. forc= 0.000088
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 3.068269e-07
 largest correction to disp= 1.603582e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:52:49 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.38133e-11, limit = 1e-05, conv = true
(0) 11:52:49 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.35733e-06, limit = 1e-05, conv = true
(0) 11:52:49 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 11:52:49 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 11:52:49 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 11:53:05 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 13 | t 0.00012 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 2.807205e-06
 work performed by the damping forces = 0.000000e+00
 netto work = 2.807205e-06

 actual energy: 
 internal energy = 2.882660e-07
 kinetic energy = 2.518087e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 2.806353e-06

 energy increase = 2.806353e-06

 energy balance (absolute) = -8.519415e-10 
 energy balance (relative) = 0.030348 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 13 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=1.200000e-04
 actual step time=1.300000e-04
 actual total time=1.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000257
 time avg. forc= 0.000101
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 8.085334e-08 in node 5928 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000257
 time avg. forc= 0.000101
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.369646e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:53:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.77437e-06, limit = 1e-05, conv = true
(0) 11:53:22 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.320294, limit = 1e-05, conv = false
(0) 11:53:36 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 13 | t 0.00012 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 13 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.200000e-04
 actual step time=1.300000e-04
 actual total time=1.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000163
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.879263e-08 in node 5917 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000163
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.478812e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:53:53 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.47162e-07, limit = 1e-05, conv = true
(0) 11:53:53 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.321744, limit = 1e-05, conv = false
(0) 11:54:08 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 13 | t 0.00012 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 13 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.200000e-04
 actual step time=1.300000e-04
 actual total time=1.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000164
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.927695e-08 in node 5917 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000164
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.478786e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:54:25 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.60481e-08, limit = 1e-05, conv = true
(0) 11:54:25 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0121424, limit = 1e-05, conv = false
(0) 11:54:40 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 13 | t 0.00012 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 13 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.200000e-04
 actual step time=1.300000e-04
 actual total time=1.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000162
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.954175e-08 in node 5917 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000162
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.471310e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:54:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.44501e-08, limit = 1e-05, conv = true
(0) 11:54:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00868277, limit = 1e-05, conv = false
(0) 11:55:11 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 13 | t 0.00012 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 13 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.200000e-04
 actual step time=1.300000e-04
 actual total time=1.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000162
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.959496e-08 in node 5917 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000162
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.471225e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:55:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.03459e-09, limit = 1e-05, conv = true
(0) 11:55:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00173349, limit = 1e-05, conv = false
(0) 11:55:42 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 13 | t 0.00012 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 13 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.200000e-04
 actual step time=1.300000e-04
 actual total time=1.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000162
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.955210e-08 in node 5917 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000162
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.470923e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:55:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.0049e-10, limit = 1e-05, conv = true
(0) 11:55:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000387473, limit = 1e-05, conv = false
(0) 11:56:13 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 13 | t 0.00012 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 13 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.200000e-04
 actual step time=1.300000e-04
 actual total time=1.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000162
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.955531e-08 in node 5917 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000162
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.470849e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:56:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.87509e-10, limit = 1e-05, conv = true
(0) 11:56:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.78928e-05, limit = 1e-05, conv = false
(0) 11:56:49 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 13 | t 0.00012 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 13 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.200000e-04
 actual step time=1.300000e-04
 actual total time=1.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000162
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.955408e-08 in node 5917 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000162
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.470802e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:57:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.0785e-11, limit = 1e-05, conv = true
(0) 11:57:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.75687e-05, limit = 1e-05, conv = false
(0) 11:57:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 13 | t 0.00012 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 13 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.200000e-04
 actual step time=1.300000e-04
 actual total time=1.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000162
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.955415e-08 in node 5917 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000162
 time avg. forc= 0.000093
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.427819e-07
 largest correction to disp= 1.470805e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:57:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.08759e-11, limit = 1e-05, conv = true
(0) 11:57:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.07449e-06, limit = 1e-05, conv = true
(0) 11:57:36 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 11:57:36 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 11:57:36 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 11:57:50 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 14 | t 0.00013 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 3.309372e-06
 work performed by the damping forces = 0.000000e+00
 netto work = 3.309372e-06

 actual energy: 
 internal energy = 3.529323e-07
 kinetic energy = 2.951781e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 3.304714e-06

 energy increase = 3.304714e-06

 energy balance (absolute) = -4.658308e-09 
 energy balance (relative) = 0.140761 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 14 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=1.300000e-04
 actual step time=1.400000e-04
 actual total time=1.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000265
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 8.785373e-08 in node 6029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000265
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 32364 and dof 2
 largest increment of disp= 3.613092e-07
 largest correction to disp= 1.430102e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:58:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.77646e-06, limit = 1e-05, conv = true
(0) 11:58:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.320672, limit = 1e-05, conv = false
(0) 11:58:21 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 14 | t 0.00013 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 14 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.300000e-04
 actual step time=1.400000e-04
 actual total time=1.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000183
 time avg. forc= 0.000100
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 2.174925e-08 in node 6029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000183
 time avg. forc= 0.000100
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 1.403045e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:58:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.00913e-07, limit = 1e-05, conv = true
(0) 11:58:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.329818, limit = 1e-05, conv = false
(0) 11:58:51 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 14 | t 0.00013 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 14 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.300000e-04
 actual step time=1.400000e-04
 actual total time=1.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 2.415803e-08 in node 6029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 1.372667e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:59:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.21608e-08, limit = 1e-05, conv = true
(0) 11:59:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0321091, limit = 1e-05, conv = false
(0) 11:59:21 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 14 | t 0.00013 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 14 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.300000e-04
 actual step time=1.400000e-04
 actual total time=1.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000012 in node 14279 and dof 3
 largest increment of disp= 3.613092e-07
 largest correction to disp= 2.405570e-08 in node 6029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000000 in node 14278 and dof 2
 largest increment of disp= 3.613092e-07
 largest correction to disp= 1.179211e-11 in node 14278 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 11:59:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.25336e-08, limit = 1e-05, conv = true
(0) 11:59:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0119828, limit = 1e-05, conv = false
(0) 11:59:52 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 14 | t 0.00013 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 14 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.300000e-04
 actual step time=1.400000e-04
 actual total time=1.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 2.403000e-08 in node 6029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 1.358240e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:00:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.3993e-09, limit = 1e-05, conv = true
(0) 12:00:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00207731, limit = 1e-05, conv = false
(0) 12:00:22 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 14 | t 0.00013 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 14 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.300000e-04
 actual step time=1.400000e-04
 actual total time=1.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 2.403569e-08 in node 6029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 1.357645e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:00:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.73879e-10, limit = 1e-05, conv = true
(0) 12:00:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000506918, limit = 1e-05, conv = false
(0) 12:00:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 14 | t 0.00013 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 14 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.300000e-04
 actual step time=1.400000e-04
 actual total time=1.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 2.404491e-08 in node 6029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 1.357387e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:01:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.83313e-10, limit = 1e-05, conv = true
(0) 12:01:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000253355, limit = 1e-05, conv = false
(0) 12:01:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 14 | t 0.00013 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 14 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.300000e-04
 actual step time=1.400000e-04
 actual total time=1.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 2.403812e-08 in node 6029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 1.357572e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:01:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.58925e-11, limit = 1e-05, conv = true
(0) 12:01:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000157266, limit = 1e-05, conv = false
(0) 12:01:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 14 | t 0.00013 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 14 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.300000e-04
 actual step time=1.400000e-04
 actual total time=1.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 2.403861e-08 in node 6029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 1.357598e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:02:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.98904e-11, limit = 1e-05, conv = true
(0) 12:02:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.52961e-05, limit = 1e-05, conv = false
(0) 12:02:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 14 | t 0.00013 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 14 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.300000e-04
 actual step time=1.400000e-04
 actual total time=1.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 2.403854e-08 in node 6029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000179
 time avg. forc= 0.000099
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.613092e-07
 largest correction to disp= 1.357592e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:02:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.74647e-11, limit = 1e-05, conv = true
(0) 12:02:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.48848e-06, limit = 1e-05, conv = true
(0) 12:02:40 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 12:02:40 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 12:02:40 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 12:02:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 15 | t 0.00014 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 3.847438e-06
 work performed by the damping forces = 0.000000e+00
 netto work = 3.847438e-06

 actual energy: 
 internal energy = 4.251289e-07
 kinetic energy = 3.420244e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 3.845373e-06

 energy increase = 3.845373e-06

 energy balance (absolute) = -2.065452e-09 
 energy balance (relative) = 0.053684 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 15 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=1.400000e-04
 actual step time=1.500000e-04
 actual total time=1.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000277
 time avg. forc= 0.000111
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.844934e-07
 largest correction to disp= 8.349767e-08 in node 6024 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000277
 time avg. forc= 0.000111
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 3.844934e-07
 largest correction to disp= 1.154276e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:03:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.74213e-06, limit = 1e-05, conv = true
(0) 12:03:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.315786, limit = 1e-05, conv = false
(0) 12:03:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 15 | t 0.00014 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 15 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.400000e-04
 actual step time=1.500000e-04
 actual total time=1.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000199
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.844934e-07
 largest correction to disp= 1.978005e-08 in node 6024 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000199
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 3.844934e-07
 largest correction to disp= 1.202012e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:03:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.04735e-07, limit = 1e-05, conv = true
(0) 12:03:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.320369, limit = 1e-05, conv = false
(0) 12:03:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 15 | t 0.00014 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 15 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.400000e-04
 actual step time=1.500000e-04
 actual total time=1.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000199
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.844934e-07
 largest correction to disp= 2.026708e-08 in node 6024 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000199
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 3.844934e-07
 largest correction to disp= 1.206656e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:04:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.40684e-08, limit = 1e-05, conv = true
(0) 12:04:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0120348, limit = 1e-05, conv = false
(0) 12:04:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 15 | t 0.00014 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 15 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.400000e-04
 actual step time=1.500000e-04
 actual total time=1.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000198
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.844934e-07
 largest correction to disp= 2.043324e-08 in node 6024 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000198
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 3.844934e-07
 largest correction to disp= 1.212426e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:04:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.36694e-08, limit = 1e-05, conv = true
(0) 12:04:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00625973, limit = 1e-05, conv = false
(0) 12:04:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 15 | t 0.00014 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 15 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.400000e-04
 actual step time=1.500000e-04
 actual total time=1.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000199
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.844934e-07
 largest correction to disp= 2.034865e-08 in node 6024 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000199
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 3.844934e-07
 largest correction to disp= 1.210601e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:05:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.84536e-09, limit = 1e-05, conv = true
(0) 12:05:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00188814, limit = 1e-05, conv = false
(0) 12:05:26 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 15 | t 0.00014 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 15 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.400000e-04
 actual step time=1.500000e-04
 actual total time=1.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000199
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.844934e-07
 largest correction to disp= 2.035761e-08 in node 6024 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000199
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 18256 and dof 2
 largest increment of disp= 3.844934e-07
 largest correction to disp= 1.210363e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:05:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.0447e-10, limit = 1e-05, conv = true
(0) 12:05:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000331479, limit = 1e-05, conv = false
(0) 12:05:56 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 15 | t 0.00014 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 15 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.400000e-04
 actual step time=1.500000e-04
 actual total time=1.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000199
 time avg. forc= 0.000106
 largest residual force= 0.005073 in node 27538 and dof 2
 largest increment of disp= 3.844934e-07
 largest correction to disp= 2.035191e-08 in node 6024 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000199
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 36821 and dof 2
 largest increment of disp= 3.844934e-07
 largest correction to disp= 1.295295e-09 in node 27538 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:06:14 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.20517e-10, limit = 1e-05, conv = true
(0) 12:06:14 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000129439, limit = 1e-05, conv = false
(0) 12:06:28 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 15 | t 0.00014 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 15 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.400000e-04
 actual step time=1.500000e-04
 actual total time=1.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000199
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.844934e-07
 largest correction to disp= 2.035306e-08 in node 6024 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000199
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 3.844934e-07
 largest correction to disp= 1.210262e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:06:44 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.2441e-11, limit = 1e-05, conv = true
(0) 12:06:44 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.41098e-05, limit = 1e-05, conv = false
(0) 12:06:58 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 15 | t 0.00014 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 15 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.400000e-04
 actual step time=1.500000e-04
 actual total time=1.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000199
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 3.844934e-07
 largest correction to disp= 2.035289e-08 in node 6024 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000199
 time avg. forc= 0.000106
 largest residual force= 0.000000 in node 28515 and dof 3
 largest increment of disp= 3.844934e-07
 largest correction to disp= 1.210262e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:07:15 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.09152e-11, limit = 1e-05, conv = true
(0) 12:07:15 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.87198e-06, limit = 1e-05, conv = true
(0) 12:07:15 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 12:07:15 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 12:07:15 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 12:07:29 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 16 | t 0.00015 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 4.419334e-06
 work performed by the damping forces = 0.000000e+00
 netto work = 4.419334e-06

 actual energy: 
 internal energy = 5.075673e-07
 kinetic energy = 3.906284e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 4.413852e-06

 energy increase = 4.413852e-06

 energy balance (absolute) = -5.482632e-09 
 energy balance (relative) = 0.124060 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 16 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=1.500000e-04
 actual step time=1.600000e-04
 actual total time=1.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000287
 time avg. forc= 0.000117
 largest residual force= 0.000000 in node 5807 and dof 2
 largest increment of disp= 4.034895e-07
 largest correction to disp= 8.996879e-08 in node 6060 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000287
 time avg. forc= 0.000117
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 1.628521e-12 in node 10722 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:07:46 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.73689e-06, limit = 1e-05, conv = true
(0) 12:07:46 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.321272, limit = 1e-05, conv = false
(0) 12:07:59 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 16 | t 0.00015 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 16 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.500000e-04
 actual step time=1.600000e-04
 actual total time=1.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000227
 time avg. forc= 0.000114
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 2.018128e-08 in node 6037 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000227
 time avg. forc= 0.000114
 largest residual force= 0.000000 in node 13118 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 1.099862e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:08:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.37449e-07, limit = 1e-05, conv = true
(0) 12:08:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.311913, limit = 1e-05, conv = false
(0) 12:08:30 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 16 | t 0.00015 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 16 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.500000e-04
 actual step time=1.600000e-04
 actual total time=1.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000220
 time avg. forc= 0.000113
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 2.078207e-08 in node 6037 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000220
 time avg. forc= 0.000113
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 1.074051e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:08:46 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.17031e-08, limit = 1e-05, conv = true
(0) 12:08:46 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0257662, limit = 1e-05, conv = false
(0) 12:09:00 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 16 | t 0.00015 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 16 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.500000e-04
 actual step time=1.600000e-04
 actual total time=1.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000220
 time avg. forc= 0.000113
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 2.082920e-08 in node 6037 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000220
 time avg. forc= 0.000113
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 1.075302e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:09:17 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.17433e-08, limit = 1e-05, conv = true
(0) 12:09:17 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00374761, limit = 1e-05, conv = false
(0) 12:09:31 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 16 | t 0.00015 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 16 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.500000e-04
 actual step time=1.600000e-04
 actual total time=1.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000220
 time avg. forc= 0.000113
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 2.078341e-08 in node 6037 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000220
 time avg. forc= 0.000113
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 1.073512e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:09:48 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.32289e-09, limit = 1e-05, conv = true
(0) 12:09:48 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00203505, limit = 1e-05, conv = false
(0) 12:10:03 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 16 | t 0.00015 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 16 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.500000e-04
 actual step time=1.600000e-04
 actual total time=1.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000220
 time avg. forc= 0.000113
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 2.079807e-08 in node 6037 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000220
 time avg. forc= 0.000113
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 1.073541e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:10:19 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.67479e-10, limit = 1e-05, conv = true
(0) 12:10:19 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00037144, limit = 1e-05, conv = false
(0) 12:10:33 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 16 | t 0.00015 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 16 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.500000e-04
 actual step time=1.600000e-04
 actual total time=1.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000220
 time avg. forc= 0.000113
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 2.080230e-08 in node 6037 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000220
 time avg. forc= 0.000113
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 1.073773e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:10:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.52108e-10, limit = 1e-05, conv = true
(0) 12:10:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000237254, limit = 1e-05, conv = false
(0) 12:11:06 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 16 | t 0.00015 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 16 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.500000e-04
 actual step time=1.600000e-04
 actual total time=1.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000220
 time avg. forc= 0.000113
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 2.079898e-08 in node 6037 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000220
 time avg. forc= 0.000113
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 1.073745e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:11:23 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.06253e-11, limit = 1e-05, conv = true
(0) 12:11:23 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.83316e-05, limit = 1e-05, conv = false
(0) 12:11:37 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 16 | t 0.00015 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 16 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.500000e-04
 actual step time=1.600000e-04
 actual total time=1.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000220
 time avg. forc= 0.000113
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 2.079961e-08 in node 6037 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000220
 time avg. forc= 0.000113
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 4.034895e-07
 largest correction to disp= 1.073753e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:11:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.24353e-11, limit = 1e-05, conv = true
(0) 12:11:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.86897e-06, limit = 1e-05, conv = true
(0) 12:11:54 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 12:11:54 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 12:11:54 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 12:12:11 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 17 | t 0.00016 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 5.038809e-06
 work performed by the damping forces = 0.000000e+00
 netto work = 5.038809e-06

 actual energy: 
 internal energy = 6.006697e-07
 kinetic energy = 4.436471e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 5.037140e-06

 energy increase = 5.037140e-06

 energy balance (absolute) = -1.668508e-09 
 energy balance (relative) = 0.033113 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 17 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=1.600000e-04
 actual step time=1.700000e-04
 actual total time=1.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000297
 time avg. forc= 0.000124
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 9.101536e-08 in node 6063 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000297
 time avg. forc= 0.000124
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 1.005415e-12 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:12:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.71399e-06, limit = 1e-05, conv = true
(0) 12:12:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.310834, limit = 1e-05, conv = false
(0) 12:12:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 17 | t 0.00016 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 17 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.600000e-04
 actual step time=1.700000e-04
 actual total time=1.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000241
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 2.055893e-08 in node 6578 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000241
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 4.284159e-07
 largest correction to disp= 9.666956e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:13:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.2168e-07, limit = 1e-05, conv = true
(0) 12:13:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.319216, limit = 1e-05, conv = false
(0) 12:13:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 17 | t 0.00016 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 17 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.600000e-04
 actual step time=1.700000e-04
 actual total time=1.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000247
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 2.231306e-08 in node 6578 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000247
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 9.471308e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:13:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.20375e-08, limit = 1e-05, conv = true
(0) 12:13:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0284759, limit = 1e-05, conv = false
(0) 12:13:46 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 17 | t 0.00016 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 17 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.600000e-04
 actual step time=1.700000e-04
 actual total time=1.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000248
 time avg. forc= 0.000121
 largest residual force= 0.000250 in node 32116 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 2.168122e-08 in node 6578 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000248
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 18653 and dof 3
 largest increment of disp= 4.284159e-07
 largest correction to disp= 1.085511e-10 in node 32116 and dof 1

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:14:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.56025e-08, limit = 1e-05, conv = true
(0) 12:14:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0101778, limit = 1e-05, conv = false
(0) 12:14:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 17 | t 0.00016 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 17 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.600000e-04
 actual step time=1.700000e-04
 actual total time=1.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000247
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 2.180030e-08 in node 6578 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000247
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 9.435913e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:14:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.08774e-09, limit = 1e-05, conv = true
(0) 12:14:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00251635, limit = 1e-05, conv = false
(0) 12:14:47 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 17 | t 0.00016 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 17 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.600000e-04
 actual step time=1.700000e-04
 actual total time=1.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000247
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 2.174979e-08 in node 6578 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000247
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 9.423625e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:15:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.85442e-10, limit = 1e-05, conv = true
(0) 12:15:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0013248, limit = 1e-05, conv = false
(0) 12:15:17 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 17 | t 0.00016 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 17 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.600000e-04
 actual step time=1.700000e-04
 actual total time=1.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000247
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 2.175174e-08 in node 6578 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000247
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 9.423998e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:15:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.63666e-10, limit = 1e-05, conv = true
(0) 12:15:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.89012e-05, limit = 1e-05, conv = false
(0) 12:15:49 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 17 | t 0.00016 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 17 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.600000e-04
 actual step time=1.700000e-04
 actual total time=1.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000247
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 2.175113e-08 in node 6578 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000247
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 9.423945e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:16:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.05841e-11, limit = 1e-05, conv = true
(0) 12:16:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.13403e-05, limit = 1e-05, conv = false
(0) 12:16:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 17 | t 0.00016 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 17 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.600000e-04
 actual step time=1.700000e-04
 actual total time=1.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000247
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 2.175157e-08 in node 6578 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000247
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 9.424053e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:16:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.98336e-12, limit = 1e-05, conv = true
(0) 12:16:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.20573e-05, limit = 1e-05, conv = false
(0) 12:16:50 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 17 | t 0.00016 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 17 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.600000e-04
 actual step time=1.700000e-04
 actual total time=1.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000247
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 2.175163e-08 in node 6578 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000247
 time avg. forc= 0.000121
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 4.284159e-07
 largest correction to disp= 9.424063e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:17:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.64002e-12, limit = 1e-05, conv = true
(0) 12:17:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.22247e-06, limit = 1e-05, conv = true
(0) 12:17:06 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 12:17:06 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 12:17:06 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 12:17:21 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 18 | t 0.00017 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 5.699046e-06
 work performed by the damping forces = 0.000000e+00
 netto work = 5.699046e-06

 actual energy: 
 internal energy = 7.046991e-07
 kinetic energy = 4.987801e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 5.692500e-06

 energy increase = 5.692500e-06

 energy balance (absolute) = -6.545663e-09 
 energy balance (relative) = 0.114855 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 18 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=1.700000e-04
 actual step time=1.800000e-04
 actual total time=1.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000313
 time avg. forc= 0.000132
 largest residual force= 0.000000 in node 5807 and dof 2
 largest increment of disp= 4.532979e-07
 largest correction to disp= 9.192312e-08 in node 6598 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000313
 time avg. forc= 0.000132
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 4.532979e-07
 largest correction to disp= 1.803887e-12 in node 5807 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:17:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.72312e-06, limit = 1e-05, conv = true
(0) 12:17:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.337474, limit = 1e-05, conv = false
(0) 12:17:51 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 18 | t 0.00017 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 18 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.700000e-04
 actual step time=1.800000e-04
 actual total time=1.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000277
 time avg. forc= 0.000130
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.532979e-07
 largest correction to disp= 2.133039e-08 in node 6950 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000277
 time avg. forc= 0.000130
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 4.532979e-07
 largest correction to disp= 8.366267e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:18:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.2961e-07, limit = 1e-05, conv = true
(0) 12:18:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.331462, limit = 1e-05, conv = false
(0) 12:18:21 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 18 | t 0.00017 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 18 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.700000e-04
 actual step time=1.800000e-04
 actual total time=1.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000274
 time avg. forc= 0.000130
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.532979e-07
 largest correction to disp= 2.158295e-08 in node 6950 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000274
 time avg. forc= 0.000130
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 4.532979e-07
 largest correction to disp= 8.263130e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:18:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.62993e-08, limit = 1e-05, conv = true
(0) 12:18:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0211165, limit = 1e-05, conv = false
(0) 12:18:50 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 18 | t 0.00017 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 18 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.700000e-04
 actual step time=1.800000e-04
 actual total time=1.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000272
 time avg. forc= 0.000129
 largest residual force= 0.000056 in node 30180 and dof 3
 largest increment of disp= 4.532979e-07
 largest correction to disp= 2.152772e-08 in node 6950 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000272
 time avg. forc= 0.000129
 largest residual force= 0.000000 in node 2901 and dof 2
 largest increment of disp= 4.532979e-07
 largest correction to disp= 4.588387e-11 in node 2901 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:19:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.28302e-08, limit = 1e-05, conv = true
(0) 12:19:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00734271, limit = 1e-05, conv = false
(0) 12:19:22 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 18 | t 0.00017 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 18 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.700000e-04
 actual step time=1.800000e-04
 actual total time=1.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000273
 time avg. forc= 0.000129
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.532979e-07
 largest correction to disp= 2.153406e-08 in node 6950 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000273
 time avg. forc= 0.000129
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 4.532979e-07
 largest correction to disp= 8.237943e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:19:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.55042e-09, limit = 1e-05, conv = true
(0) 12:19:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00230994, limit = 1e-05, conv = false
(0) 12:19:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 18 | t 0.00017 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 18 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.700000e-04
 actual step time=1.800000e-04
 actual total time=1.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000273
 time avg. forc= 0.000129
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.532979e-07
 largest correction to disp= 2.153136e-08 in node 6950 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000273
 time avg. forc= 0.000129
 largest residual force= 0.000000 in node 14969 and dof 3
 largest increment of disp= 4.532979e-07
 largest correction to disp= 8.235453e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:20:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.79079e-10, limit = 1e-05, conv = true
(0) 12:20:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00028835, limit = 1e-05, conv = false
(0) 12:20:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 18 | t 0.00017 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 18 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.700000e-04
 actual step time=1.800000e-04
 actual total time=1.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000273
 time avg. forc= 0.000129
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.532979e-07
 largest correction to disp= 2.153315e-08 in node 6950 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000273
 time avg. forc= 0.000129
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 4.532979e-07
 largest correction to disp= 8.234908e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:20:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.41601e-10, limit = 1e-05, conv = true
(0) 12:20:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.41314e-05, limit = 1e-05, conv = false
(0) 12:20:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 18 | t 0.00017 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 18 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.700000e-04
 actual step time=1.800000e-04
 actual total time=1.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000273
 time avg. forc= 0.000129
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.532979e-07
 largest correction to disp= 2.153251e-08 in node 6950 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000273
 time avg. forc= 0.000129
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 4.532979e-07
 largest correction to disp= 8.235116e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:21:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.9817e-11, limit = 1e-05, conv = true
(0) 12:21:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.27544e-05, limit = 1e-05, conv = false
(0) 12:21:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 18 | t 0.00017 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 18 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.700000e-04
 actual step time=1.800000e-04
 actual total time=1.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000273
 time avg. forc= 0.000129
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.532979e-07
 largest correction to disp= 2.153310e-08 in node 6950 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000273
 time avg. forc= 0.000129
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 4.532979e-07
 largest correction to disp= 8.235164e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:21:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.12541e-11, limit = 1e-05, conv = true
(0) 12:21:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.18068e-06, limit = 1e-05, conv = true
(0) 12:21:41 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 12:21:41 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 12:21:41 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 12:21:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 19 | t 0.00018 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 6.388843e-06
 work performed by the damping forces = 0.000000e+00
 netto work = 6.388843e-06

 actual energy: 
 internal energy = 8.206864e-07
 kinetic energy = 5.565923e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 6.386609e-06

 energy increase = 6.386609e-06

 energy balance (absolute) = -2.234026e-09 
 energy balance (relative) = 0.034968 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 19 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=1.800000e-04
 actual step time=1.900000e-04
 actual total time=1.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000330
 time avg. forc= 0.000140
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.823256e-07
 largest correction to disp= 8.889064e-08 in node 6598 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000330
 time avg. forc= 0.000140
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 4.823256e-07
 largest correction to disp= 8.330581e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:22:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.69541e-06, limit = 1e-05, conv = true
(0) 12:22:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.33902, limit = 1e-05, conv = false
(0) 12:22:25 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 19 | t 0.00018 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 19 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.800000e-04
 actual step time=1.900000e-04
 actual total time=1.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000298
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.823256e-07
 largest correction to disp= 1.798740e-08 in node 6595 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000298
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 4.823256e-07
 largest correction to disp= 7.074922e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:22:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.27127e-07, limit = 1e-05, conv = true
(0) 12:22:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.349104, limit = 1e-05, conv = false
(0) 12:22:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 19 | t 0.00018 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 19 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.800000e-04
 actual step time=1.900000e-04
 actual total time=1.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000293
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.823256e-07
 largest correction to disp= 1.868787e-08 in node 6595 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000293
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 4.823256e-07
 largest correction to disp= 7.217689e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:23:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.00008e-08, limit = 1e-05, conv = true
(0) 12:23:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.020654, limit = 1e-05, conv = false
(0) 12:23:25 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 19 | t 0.00018 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 19 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.800000e-04
 actual step time=1.900000e-04
 actual total time=1.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000293
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.823256e-07
 largest correction to disp= 1.859044e-08 in node 6595 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000293
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 4.823256e-07
 largest correction to disp= 7.192175e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:23:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.34258e-08, limit = 1e-05, conv = true
(0) 12:23:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00481882, limit = 1e-05, conv = false
(0) 12:23:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 19 | t 0.00018 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 19 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.800000e-04
 actual step time=1.900000e-04
 actual total time=1.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000294
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.823256e-07
 largest correction to disp= 1.855270e-08 in node 6595 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000294
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 4.823256e-07
 largest correction to disp= 7.176661e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:24:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.81084e-09, limit = 1e-05, conv = true
(0) 12:24:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00240209, limit = 1e-05, conv = false
(0) 12:24:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 19 | t 0.00018 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 19 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.800000e-04
 actual step time=1.900000e-04
 actual total time=1.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000294
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.823256e-07
 largest correction to disp= 1.854324e-08 in node 6595 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000294
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 4.823256e-07
 largest correction to disp= 7.177870e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:24:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.66425e-10, limit = 1e-05, conv = true
(0) 12:24:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000395337, limit = 1e-05, conv = false
(0) 12:24:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 19 | t 0.00018 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 19 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.800000e-04
 actual step time=1.900000e-04
 actual total time=1.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000294
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.823256e-07
 largest correction to disp= 1.854598e-08 in node 6595 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000294
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 28847 and dof 3
 largest increment of disp= 4.823256e-07
 largest correction to disp= 7.178987e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:25:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.2818e-10, limit = 1e-05, conv = true
(0) 12:25:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000115666, limit = 1e-05, conv = false
(0) 12:25:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 19 | t 0.00018 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 19 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.800000e-04
 actual step time=1.900000e-04
 actual total time=1.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000294
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.823256e-07
 largest correction to disp= 1.854636e-08 in node 6595 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000294
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 4.823256e-07
 largest correction to disp= 7.179225e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:25:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.80238e-11, limit = 1e-05, conv = true
(0) 12:25:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.71808e-05, limit = 1e-05, conv = false
(0) 12:25:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 19 | t 0.00018 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 19 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.800000e-04
 actual step time=1.900000e-04
 actual total time=1.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000294
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 4.823256e-07
 largest correction to disp= 1.854650e-08 in node 6595 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000294
 time avg. forc= 0.000138
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 4.823256e-07
 largest correction to disp= 7.179217e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:26:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.62182e-12, limit = 1e-05, conv = true
(0) 12:26:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.63536e-06, limit = 1e-05, conv = true
(0) 12:26:10 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 12:26:10 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 12:26:10 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 12:26:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 20 | t 0.00019 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 7.133171e-06
 work performed by the damping forces = 0.000000e+00
 netto work = 7.133171e-06

 actual energy: 
 internal energy = 9.470091e-07
 kinetic energy = 6.180254e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 7.127263e-06

 energy increase = 7.127263e-06

 energy balance (absolute) = -5.908309e-09 
 energy balance (relative) = 0.082829 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 20 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=1.900000e-04
 actual step time=2.000000e-04
 actual total time=2.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000345
 time avg. forc= 0.000148
 largest residual force= 0.000000 in node 5807 and dof 2
 largest increment of disp= 5.060849e-07
 largest correction to disp= 9.457544e-08 in node 6559 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000345
 time avg. forc= 0.000148
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 5.060849e-07
 largest correction to disp= 1.734858e-12 in node 8615 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:26:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.6828e-06, limit = 1e-05, conv = true
(0) 12:26:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.342821, limit = 1e-05, conv = false
(0) 12:26:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 20 | t 0.00019 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 20 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.900000e-04
 actual step time=2.000000e-04
 actual total time=2.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000303
 time avg. forc= 0.000146
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.060849e-07
 largest correction to disp= 2.210872e-08 in node 6559 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000303
 time avg. forc= 0.000146
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 5.060849e-07
 largest correction to disp= 6.485024e-13 in node 6182 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:27:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.37667e-07, limit = 1e-05, conv = true
(0) 12:27:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.312921, limit = 1e-05, conv = false
(0) 12:27:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 20 | t 0.00019 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 20 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.900000e-04
 actual step time=2.000000e-04
 actual total time=2.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000312
 time avg. forc= 0.000147
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.060849e-07
 largest correction to disp= 2.180477e-08 in node 6559 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000312
 time avg. forc= 0.000147
 largest residual force= 0.000000 in node 23285 and dof 2
 largest increment of disp= 5.060849e-07
 largest correction to disp= 6.754555e-13 in node 6182 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:27:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.20158e-08, limit = 1e-05, conv = true
(0) 12:27:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0404684, limit = 1e-05, conv = false
(0) 12:27:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 20 | t 0.00019 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 20 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.900000e-04
 actual step time=2.000000e-04
 actual total time=2.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000312
 time avg. forc= 0.000147
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.060849e-07
 largest correction to disp= 2.196914e-08 in node 6559 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000312
 time avg. forc= 0.000147
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 5.060849e-07
 largest correction to disp= 6.826651e-13 in node 6182 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:28:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.67254e-08, limit = 1e-05, conv = true
(0) 12:28:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00584757, limit = 1e-05, conv = false
(0) 12:28:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 20 | t 0.00019 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 20 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.900000e-04
 actual step time=2.000000e-04
 actual total time=2.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000312
 time avg. forc= 0.000147
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.060849e-07
 largest correction to disp= 2.191648e-08 in node 6559 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000312
 time avg. forc= 0.000147
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 5.060849e-07
 largest correction to disp= 6.811965e-13 in node 6182 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:28:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.5724e-09, limit = 1e-05, conv = true
(0) 12:28:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0020275, limit = 1e-05, conv = false
(0) 12:28:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 20 | t 0.00019 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 20 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.900000e-04
 actual step time=2.000000e-04
 actual total time=2.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000312
 time avg. forc= 0.000147
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.060849e-07
 largest correction to disp= 2.193266e-08 in node 6559 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000312
 time avg. forc= 0.000147
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 5.060849e-07
 largest correction to disp= 6.811041e-13 in node 6182 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:29:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.51157e-10, limit = 1e-05, conv = true
(0) 12:29:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000238828, limit = 1e-05, conv = false
(0) 12:29:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 20 | t 0.00019 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 20 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.900000e-04
 actual step time=2.000000e-04
 actual total time=2.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000312
 time avg. forc= 0.000147
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.060849e-07
 largest correction to disp= 2.193353e-08 in node 6559 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000312
 time avg. forc= 0.000147
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 5.060849e-07
 largest correction to disp= 6.811564e-13 in node 6182 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:29:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.94146e-10, limit = 1e-05, conv = true
(0) 12:29:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000119944, limit = 1e-05, conv = false
(0) 12:29:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 20 | t 0.00019 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 20 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.900000e-04
 actual step time=2.000000e-04
 actual total time=2.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000312
 time avg. forc= 0.000147
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.060849e-07
 largest correction to disp= 2.192992e-08 in node 6559 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000312
 time avg. forc= 0.000147
 largest residual force= 0.000000 in node 35372 and dof 2
 largest increment of disp= 5.060849e-07
 largest correction to disp= 6.811049e-13 in node 6182 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:30:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.79883e-11, limit = 1e-05, conv = true
(0) 12:30:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.89593e-05, limit = 1e-05, conv = false
(0) 12:30:28 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 20 | t 0.00019 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 20 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=1.900000e-04
 actual step time=2.000000e-04
 actual total time=2.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000312
 time avg. forc= 0.000147
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.060849e-07
 largest correction to disp= 2.193018e-08 in node 6559 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000312
 time avg. forc= 0.000147
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 5.060849e-07
 largest correction to disp= 6.811001e-13 in node 6182 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:30:44 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.87737e-12, limit = 1e-05, conv = true
(0) 12:30:44 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.54345e-06, limit = 1e-05, conv = true
(0) 12:30:44 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 12:30:44 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 12:30:44 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 12:30:58 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 21 | t 0.0002 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 7.918537e-06
 work performed by the damping forces = 0.000000e+00
 netto work = 7.918537e-06

 actual energy: 
 internal energy = 1.083186e-06
 kinetic energy = 6.832203e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 7.915389e-06

 energy increase = 7.915389e-06

 energy balance (absolute) = -3.147596e-09 
 energy balance (relative) = 0.039750 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 21 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-04
 actual step time=2.100000e-04
 actual total time=2.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000362
 time avg. forc= 0.000157
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 8.684360e-08 in node 6706 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000362
 time avg. forc= 0.000157
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 5.958016e-13 in node 13118 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:31:14 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.65446e-06, limit = 1e-05, conv = true
(0) 12:31:14 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.327065, limit = 1e-05, conv = false
(0) 12:31:28 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 21 | t 0.0002 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 21 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-04
 actual step time=2.100000e-04
 actual total time=2.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000330
 time avg. forc= 0.000156
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 1.636602e-08 in node 6624 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000330
 time avg. forc= 0.000156
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 6.378389e-13 in node 13466 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:31:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.14033e-07, limit = 1e-05, conv = true
(0) 12:31:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.325375, limit = 1e-05, conv = false
(0) 12:31:58 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 21 | t 0.0002 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 21 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-04
 actual step time=2.100000e-04
 actual total time=2.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000327
 time avg. forc= 0.000155
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 1.728585e-08 in node 6709 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000327
 time avg. forc= 0.000155
 largest residual force= 0.000000 in node 22821 and dof 2
 largest increment of disp= 5.374512e-07
 largest correction to disp= 6.434069e-13 in node 6182 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:32:17 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.83906e-08, limit = 1e-05, conv = true
(0) 12:32:17 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0176757, limit = 1e-05, conv = false
(0) 12:32:30 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 21 | t 0.0002 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 21 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-04
 actual step time=2.100000e-04
 actual total time=2.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000328
 time avg. forc= 0.000155
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 1.676894e-08 in node 6709 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000328
 time avg. forc= 0.000155
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 6.351513e-13 in node 6182 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:32:46 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.34045e-08, limit = 1e-05, conv = true
(0) 12:32:46 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.010744, limit = 1e-05, conv = false
(0) 12:33:00 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 21 | t 0.0002 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 21 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-04
 actual step time=2.100000e-04
 actual total time=2.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000328
 time avg. forc= 0.000155
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 1.679577e-08 in node 6709 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000328
 time avg. forc= 0.000155
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 6.351718e-13 in node 6182 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:33:17 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.11606e-09, limit = 1e-05, conv = true
(0) 12:33:17 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0016445, limit = 1e-05, conv = false
(0) 12:33:56 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 21 | t 0.0002 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 21 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-04
 actual step time=2.100000e-04
 actual total time=2.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000328
 time avg. forc= 0.000155
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 1.680988e-08 in node 6709 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000328
 time avg. forc= 0.000155
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 6.363840e-13 in node 6182 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:34:17 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.23773e-10, limit = 1e-05, conv = true
(0) 12:34:17 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00069088, limit = 1e-05, conv = false
(0) 12:34:42 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 21 | t 0.0002 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 21 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-04
 actual step time=2.100000e-04
 actual total time=2.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000328
 time avg. forc= 0.000155
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 1.680721e-08 in node 6709 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000328
 time avg. forc= 0.000155
 largest residual force= 0.000000 in node 7898 and dof 3
 largest increment of disp= 5.374512e-07
 largest correction to disp= 6.363518e-13 in node 6182 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:34:59 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.47054e-10, limit = 1e-05, conv = true
(0) 12:34:59 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.61387e-05, limit = 1e-05, conv = false
(0) 12:35:13 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 21 | t 0.0002 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 21 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-04
 actual step time=2.100000e-04
 actual total time=2.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000328
 time avg. forc= 0.000155
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 1.680828e-08 in node 6709 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000328
 time avg. forc= 0.000155
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 6.363591e-13 in node 6182 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:35:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.15427e-11, limit = 1e-05, conv = true
(0) 12:35:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.00896e-05, limit = 1e-05, conv = false
(0) 12:35:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 21 | t 0.0002 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 21 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.000000e-04
 actual step time=2.100000e-04
 actual total time=2.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000328
 time avg. forc= 0.000155
 largest residual force= 0.000000 in node 23279 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 1.680830e-08 in node 6709 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000328
 time avg. forc= 0.000155
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 5.374512e-07
 largest correction to disp= 6.363572e-13 in node 6182 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:36:00 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.00231e-11, limit = 1e-05, conv = true
(0) 12:36:00 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.11411e-06, limit = 1e-05, conv = true
(0) 12:36:00 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 12:36:00 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 12:36:00 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 12:36:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 22 | t 0.00021 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 8.744946e-06
 work performed by the damping forces = 0.000000e+00
 netto work = 8.744946e-06

 actual energy: 
 internal energy = 1.231694e-06
 kinetic energy = 7.506576e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 8.738270e-06

 energy increase = 8.738270e-06

 energy balance (absolute) = -6.675955e-09 
 energy balance (relative) = 0.076341 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 22 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=2.100000e-04
 actual step time=2.200000e-04
 actual total time=2.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000380
 time avg. forc= 0.000166
 largest residual force= 0.000000 in node 5807 and dof 2
 largest increment of disp= 5.592977e-07
 largest correction to disp= 9.151871e-08 in node 6724 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000380
 time avg. forc= 0.000166
 largest residual force= 0.000000 in node 23302 and dof 1
 largest increment of disp= 5.592977e-07
 largest correction to disp= 1.217541e-12 in node 8615 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:36:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.62775e-06, limit = 1e-05, conv = true
(0) 12:36:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.318637, limit = 1e-05, conv = false
(0) 12:36:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 22 | t 0.00021 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 22 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.100000e-04
 actual step time=2.200000e-04
 actual total time=2.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000363
 time avg. forc= 0.000165
 largest residual force= 0.000000 in node 9565 and dof 2
 largest increment of disp= 5.592977e-07
 largest correction to disp= 2.119431e-08 in node 6724 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000363
 time avg. forc= 0.000165
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 5.592977e-07
 largest correction to disp= 6.701677e-13 in node 8751 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:37:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.33992e-07, limit = 1e-05, conv = true
(0) 12:37:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.317773, limit = 1e-05, conv = false
(0) 12:37:17 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 22 | t 0.00021 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 22 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.100000e-04
 actual step time=2.200000e-04
 actual total time=2.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000349
 time avg. forc= 0.000164
 largest residual force= 0.002150 in node 21451 and dof 1
 largest increment of disp= 5.592977e-07
 largest correction to disp= 1.913275e-08 in node 6727 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000349
 time avg. forc= 0.000164
 largest residual force= 0.000000 in node 21450 and dof 1
 largest increment of disp= 5.592977e-07
 largest correction to disp= 1.090005e-09 in node 21451 and dof 1

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:37:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.69358e-08, limit = 1e-05, conv = true
(0) 12:37:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0965255, limit = 1e-05, conv = false
(0) 12:37:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 22 | t 0.00021 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 22 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.100000e-04
 actual step time=2.200000e-04
 actual total time=2.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000349
 time avg. forc= 0.000164
 largest residual force= 0.000000 in node 13466 and dof 2
 largest increment of disp= 5.592977e-07
 largest correction to disp= 1.960823e-08 in node 6727 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000349
 time avg. forc= 0.000164
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 5.592977e-07
 largest correction to disp= 6.049486e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:38:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.58441e-08, limit = 1e-05, conv = true
(0) 12:38:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00667627, limit = 1e-05, conv = false
(0) 12:38:18 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 22 | t 0.00021 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 22 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.100000e-04
 actual step time=2.200000e-04
 actual total time=2.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000349
 time avg. forc= 0.000164
 largest residual force= 0.000000 in node 13466 and dof 2
 largest increment of disp= 5.592977e-07
 largest correction to disp= 1.947247e-08 in node 6727 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000349
 time avg. forc= 0.000164
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 5.592977e-07
 largest correction to disp= 6.022959e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:38:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.13237e-09, limit = 1e-05, conv = true
(0) 12:38:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00321745, limit = 1e-05, conv = false
(0) 12:38:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 22 | t 0.00021 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 22 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.100000e-04
 actual step time=2.200000e-04
 actual total time=2.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000349
 time avg. forc= 0.000164
 largest residual force= 0.000000 in node 13466 and dof 2
 largest increment of disp= 5.592977e-07
 largest correction to disp= 1.951105e-08 in node 6727 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000349
 time avg. forc= 0.000164
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 5.592977e-07
 largest correction to disp= 6.016246e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:39:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.13094e-10, limit = 1e-05, conv = true
(0) 12:39:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000779513, limit = 1e-05, conv = false
(0) 12:39:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 22 | t 0.00021 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 22 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.100000e-04
 actual step time=2.200000e-04
 actual total time=2.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000349
 time avg. forc= 0.000164
 largest residual force= 0.000000 in node 13466 and dof 2
 largest increment of disp= 5.592977e-07
 largest correction to disp= 1.950584e-08 in node 6727 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000349
 time avg. forc= 0.000164
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 5.592977e-07
 largest correction to disp= 6.016701e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:39:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.00533e-10, limit = 1e-05, conv = true
(0) 12:39:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000124081, limit = 1e-05, conv = false
(0) 12:39:49 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 22 | t 0.00021 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 22 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.100000e-04
 actual step time=2.200000e-04
 actual total time=2.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000349
 time avg. forc= 0.000164
 largest residual force= 0.000000 in node 13466 and dof 2
 largest increment of disp= 5.592977e-07
 largest correction to disp= 1.950706e-08 in node 6727 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000349
 time avg. forc= 0.000164
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 5.592977e-07
 largest correction to disp= 6.016949e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:40:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.84867e-11, limit = 1e-05, conv = true
(0) 12:40:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.52602e-05, limit = 1e-05, conv = false
(0) 12:40:20 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 22 | t 0.00021 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 22 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.100000e-04
 actual step time=2.200000e-04
 actual total time=2.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000349
 time avg. forc= 0.000164
 largest residual force= 0.000000 in node 13466 and dof 2
 largest increment of disp= 5.592977e-07
 largest correction to disp= 1.950719e-08 in node 6727 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000349
 time avg. forc= 0.000164
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 5.592977e-07
 largest correction to disp= 6.016868e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:40:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.71711e-12, limit = 1e-05, conv = true
(0) 12:40:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.89048e-06, limit = 1e-05, conv = true
(0) 12:40:36 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 12:40:36 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 12:40:36 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 12:40:51 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 23 | t 0.00022 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 9.629918e-06
 work performed by the damping forces = 0.000000e+00
 netto work = 9.629918e-06

 actual energy: 
 internal energy = 1.394136e-06
 kinetic energy = 8.232819e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 9.626955e-06

 energy increase = 9.626955e-06

 energy balance (absolute) = -2.963557e-09 
 energy balance (relative) = 0.030774 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 23 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=2.200000e-04
 actual step time=2.300000e-04
 actual total time=2.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000401
 time avg. forc= 0.000175
 largest residual force= 0.000000 in node 4764 and dof 2
 largest increment of disp= 5.844639e-07
 largest correction to disp= 8.534884e-08 in node 6723 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000401
 time avg. forc= 0.000175
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 5.844639e-07
 largest correction to disp= 4.099106e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:41:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.60208e-06, limit = 1e-05, conv = true
(0) 12:41:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.302529, limit = 1e-05, conv = false
(0) 12:41:21 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 23 | t 0.00022 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 23 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.200000e-04
 actual step time=2.300000e-04
 actual total time=2.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000376
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 9565 and dof 2
 largest increment of disp= 5.844639e-07
 largest correction to disp= 1.541518e-08 in node 6715 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000376
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 5.844639e-07
 largest correction to disp= 5.518913e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:41:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.13309e-07, limit = 1e-05, conv = true
(0) 12:41:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.318167, limit = 1e-05, conv = false
(0) 12:41:51 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 23 | t 0.00022 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 23 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.200000e-04
 actual step time=2.300000e-04
 actual total time=2.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000375
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 9838 and dof 2
 largest increment of disp= 5.844639e-07
 largest correction to disp= 1.633998e-08 in node 6736 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000375
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 5.844639e-07
 largest correction to disp= 5.580835e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:42:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.20935e-08, limit = 1e-05, conv = true
(0) 12:42:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0176623, limit = 1e-05, conv = false
(0) 12:42:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 23 | t 0.00022 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 23 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.200000e-04
 actual step time=2.300000e-04
 actual total time=2.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000375
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 9838 and dof 2
 largest increment of disp= 5.844639e-07
 largest correction to disp= 1.596323e-08 in node 6736 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000375
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 5.844639e-07
 largest correction to disp= 5.573626e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:42:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.56713e-09, limit = 1e-05, conv = true
(0) 12:42:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00481547, limit = 1e-05, conv = false
(0) 12:42:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 23 | t 0.00022 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 23 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.200000e-04
 actual step time=2.300000e-04
 actual total time=2.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000375
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 9838 and dof 2
 largest increment of disp= 5.844639e-07
 largest correction to disp= 1.603229e-08 in node 6736 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000375
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 26731 and dof 2
 largest increment of disp= 5.844639e-07
 largest correction to disp= 5.581182e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:43:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.88918e-09, limit = 1e-05, conv = true
(0) 12:43:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00142099, limit = 1e-05, conv = false
(0) 12:43:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 23 | t 0.00022 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 23 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.200000e-04
 actual step time=2.300000e-04
 actual total time=2.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000375
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 9838 and dof 2
 largest increment of disp= 5.844639e-07
 largest correction to disp= 1.603047e-08 in node 6736 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000375
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 5.844639e-07
 largest correction to disp= 5.580298e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:43:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.12382e-10, limit = 1e-05, conv = true
(0) 12:43:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000155894, limit = 1e-05, conv = false
(0) 12:43:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 23 | t 0.00022 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 23 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.200000e-04
 actual step time=2.300000e-04
 actual total time=2.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000375
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 9838 and dof 2
 largest increment of disp= 5.844639e-07
 largest correction to disp= 1.602920e-08 in node 6736 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000375
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 5.844639e-07
 largest correction to disp= 5.581768e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:44:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.02239e-10, limit = 1e-05, conv = true
(0) 12:44:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000125057, limit = 1e-05, conv = false
(0) 12:44:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 23 | t 0.00022 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 23 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.200000e-04
 actual step time=2.300000e-04
 actual total time=2.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000375
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 9838 and dof 2
 largest increment of disp= 5.844639e-07
 largest correction to disp= 1.602912e-08 in node 6736 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000375
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 5.844639e-07
 largest correction to disp= 5.581893e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:44:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.00483e-11, limit = 1e-05, conv = true
(0) 12:44:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.62992e-05, limit = 1e-05, conv = false
(0) 12:44:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 23 | t 0.00022 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 23 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.200000e-04
 actual step time=2.300000e-04
 actual total time=2.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000375
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 9838 and dof 2
 largest increment of disp= 5.844639e-07
 largest correction to disp= 1.602918e-08 in node 6736 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000375
 time avg. forc= 0.000173
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 5.844639e-07
 largest correction to disp= 5.581809e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:45:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.15523e-11, limit = 1e-05, conv = true
(0) 12:45:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.86359e-06, limit = 1e-05, conv = true
(0) 12:45:09 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 12:45:09 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 12:45:09 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 12:45:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 24 | t 0.00023 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 1.055700e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 1.055700e-05

 actual energy: 
 internal energy = 1.571048e-06
 kinetic energy = 8.977503e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 1.054855e-05

 energy increase = 1.054855e-05

 energy balance (absolute) = -8.450110e-09 
 energy balance (relative) = 0.080043 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 24 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=2.300000e-04
 actual step time=2.400000e-04
 actual total time=2.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000184
 largest residual force= 0.000000 in node 9147 and dof 2
 largest increment of disp= 6.064656e-07
 largest correction to disp= 8.956020e-08 in node 7074 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000184
 largest residual force= 0.000000 in node 35226 and dof 2
 largest increment of disp= 6.064656e-07
 largest correction to disp= 1.281738e-12 in node 9147 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:45:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.58548e-06, limit = 1e-05, conv = true
(0) 12:45:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.323685, limit = 1e-05, conv = false
(0) 12:45:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 24 | t 0.00023 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 24 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.300000e-04
 actual step time=2.400000e-04
 actual total time=2.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000405
 time avg. forc= 0.000183
 largest residual force= 0.000000 in node 9565 and dof 2
 largest increment of disp= 6.064656e-07
 largest correction to disp= 1.830114e-08 in node 7074 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000405
 time avg. forc= 0.000183
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 6.064656e-07
 largest correction to disp= 4.978192e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:46:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.0191e-07, limit = 1e-05, conv = true
(0) 12:46:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.332209, limit = 1e-05, conv = false
(0) 12:46:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 24 | t 0.00023 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 24 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.300000e-04
 actual step time=2.400000e-04
 actual total time=2.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000402
 time avg. forc= 0.000183
 largest residual force= 0.000000 in node 9565 and dof 2
 largest increment of disp= 6.064656e-07
 largest correction to disp= 1.927305e-08 in node 7074 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000402
 time avg. forc= 0.000183
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 6.064656e-07
 largest correction to disp= 5.201485e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:46:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.30062e-08, limit = 1e-05, conv = true
(0) 12:46:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.019642, limit = 1e-05, conv = false
(0) 12:46:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 24 | t 0.00023 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 24 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.300000e-04
 actual step time=2.400000e-04
 actual total time=2.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000401
 time avg. forc= 0.000183
 largest residual force= 0.000000 in node 9565 and dof 2
 largest increment of disp= 6.064656e-07
 largest correction to disp= 1.938399e-08 in node 7074 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000401
 time avg. forc= 0.000183
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 6.064656e-07
 largest correction to disp= 5.230616e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:47:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.25775e-08, limit = 1e-05, conv = true
(0) 12:47:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00746632, limit = 1e-05, conv = false
(0) 12:47:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 24 | t 0.00023 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 24 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.300000e-04
 actual step time=2.400000e-04
 actual total time=2.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000402
 time avg. forc= 0.000183
 largest residual force= 0.003592 in node 29207 and dof 2
 largest increment of disp= 6.064656e-07
 largest correction to disp= 1.929490e-08 in node 7074 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000402
 time avg. forc= 0.000183
 largest residual force= 0.000000 in node 14132 and dof 2
 largest increment of disp= 6.064656e-07
 largest correction to disp= 2.707055e-09 in node 14132 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:47:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.55659e-09, limit = 1e-05, conv = true
(0) 12:47:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00357507, limit = 1e-05, conv = false
(0) 12:47:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 24 | t 0.00023 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 24 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.300000e-04
 actual step time=2.400000e-04
 actual total time=2.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000401
 time avg. forc= 0.000183
 largest residual force= 0.000000 in node 9565 and dof 2
 largest increment of disp= 6.064656e-07
 largest correction to disp= 1.930341e-08 in node 7074 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000401
 time avg. forc= 0.000183
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 6.064656e-07
 largest correction to disp= 5.209074e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:48:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.07095e-10, limit = 1e-05, conv = true
(0) 12:48:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000640375, limit = 1e-05, conv = false
(0) 12:48:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 24 | t 0.00023 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 24 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.300000e-04
 actual step time=2.400000e-04
 actual total time=2.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000401
 time avg. forc= 0.000183
 largest residual force= 0.000000 in node 9565 and dof 2
 largest increment of disp= 6.064656e-07
 largest correction to disp= 1.930720e-08 in node 7074 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000401
 time avg. forc= 0.000183
 largest residual force= 0.000000 in node 22798 and dof 2
 largest increment of disp= 6.064656e-07
 largest correction to disp= 5.209557e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:48:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.81315e-10, limit = 1e-05, conv = true
(0) 12:48:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000107938, limit = 1e-05, conv = false
(0) 12:48:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 24 | t 0.00023 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 24 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.300000e-04
 actual step time=2.400000e-04
 actual total time=2.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000401
 time avg. forc= 0.000183
 largest residual force= 0.000000 in node 9565 and dof 2
 largest increment of disp= 6.064656e-07
 largest correction to disp= 1.930653e-08 in node 7074 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000401
 time avg. forc= 0.000183
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 6.064656e-07
 largest correction to disp= 5.209175e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:49:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.95855e-11, limit = 1e-05, conv = true
(0) 12:49:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.06085e-05, limit = 1e-05, conv = false
(0) 12:49:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 24 | t 0.00023 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 24 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.300000e-04
 actual step time=2.400000e-04
 actual total time=2.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000401
 time avg. forc= 0.000183
 largest residual force= 0.001476 in node 28331 and dof 2
 largest increment of disp= 6.064656e-07
 largest correction to disp= 1.930687e-08 in node 7074 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000401
 time avg. forc= 0.000183
 largest residual force= 0.000000 in node 36056 and dof 2
 largest increment of disp= 6.064656e-07
 largest correction to disp= 9.792482e-10 in node 453 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:49:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.56537e-11, limit = 1e-05, conv = true
(0) 12:49:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.62607e-06, limit = 1e-05, conv = true
(0) 12:49:40 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 12:49:40 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 12:49:40 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 12:49:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 25 | t 0.00024 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 1.151782e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 1.151782e-05

 actual energy: 
 internal energy = 1.762072e-06
 kinetic energy = 9.751940e-06
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 1.151401e-05

 energy increase = 1.151401e-05

 energy balance (absolute) = -3.807487e-09 
 energy balance (relative) = 0.033057 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 25 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=2.400000e-04
 actual step time=2.500000e-04
 actual total time=2.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000194
 largest residual force= 0.000000 in node 4764 and dof 2
 largest increment of disp= 6.335230e-07
 largest correction to disp= 8.364396e-08 in node 38248 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000194
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 6.335230e-07
 largest correction to disp= 4.233333e-13 in node 8926 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:50:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.56367e-06, limit = 1e-05, conv = true
(0) 12:50:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.324471, limit = 1e-05, conv = false
(0) 12:50:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 25 | t 0.00024 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 25 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.400000e-04
 actual step time=2.500000e-04
 actual total time=2.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000428
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 9838 and dof 2
 largest increment of disp= 6.335230e-07
 largest correction to disp= 1.524712e-08 in node 8773 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000428
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 6.335230e-07
 largest correction to disp= 4.994451e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:50:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.37349e-08, limit = 1e-05, conv = true
(0) 12:50:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.334698, limit = 1e-05, conv = false
(0) 12:50:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 25 | t 0.00024 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 25 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.400000e-04
 actual step time=2.500000e-04
 actual total time=2.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 9838 and dof 2
 largest increment of disp= 6.335230e-07
 largest correction to disp= 1.625656e-08 in node 8773 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 6.335230e-07
 largest correction to disp= 4.806335e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:51:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.06946e-08, limit = 1e-05, conv = true
(0) 12:51:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0122773, limit = 1e-05, conv = false
(0) 12:51:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 25 | t 0.00024 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 25 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.400000e-04
 actual step time=2.500000e-04
 actual total time=2.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 9565 and dof 2
 largest increment of disp= 6.335230e-07
 largest correction to disp= 1.614277e-08 in node 8773 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 6.335230e-07
 largest correction to disp= 4.780961e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:51:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.0237e-08, limit = 1e-05, conv = true
(0) 12:51:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00625977, limit = 1e-05, conv = false
(0) 12:51:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 25 | t 0.00024 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 25 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.400000e-04
 actual step time=2.500000e-04
 actual total time=2.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 9565 and dof 2
 largest increment of disp= 6.335230e-07
 largest correction to disp= 1.604144e-08 in node 8773 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 6.335230e-07
 largest correction to disp= 4.774687e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:52:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.41981e-09, limit = 1e-05, conv = true
(0) 12:52:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00187083, limit = 1e-05, conv = false
(0) 12:52:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 25 | t 0.00024 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 25 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.400000e-04
 actual step time=2.500000e-04
 actual total time=2.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 9565 and dof 2
 largest increment of disp= 6.335230e-07
 largest correction to disp= 1.608021e-08 in node 8773 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 6.335230e-07
 largest correction to disp= 4.783220e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:52:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.90553e-10, limit = 1e-05, conv = true
(0) 12:52:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00104259, limit = 1e-05, conv = false
(0) 12:52:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 25 | t 0.00024 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 25 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.400000e-04
 actual step time=2.500000e-04
 actual total time=2.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 9565 and dof 2
 largest increment of disp= 6.335230e-07
 largest correction to disp= 1.607862e-08 in node 8773 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 6.335230e-07
 largest correction to disp= 4.783039e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:53:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.24293e-10, limit = 1e-05, conv = true
(0) 12:53:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.825e-05, limit = 1e-05, conv = false
(0) 12:53:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 25 | t 0.00024 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 25 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.400000e-04
 actual step time=2.500000e-04
 actual total time=2.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 9565 and dof 2
 largest increment of disp= 6.335230e-07
 largest correction to disp= 1.607695e-08 in node 8773 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 6.335230e-07
 largest correction to disp= 4.783208e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:53:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.66665e-11, limit = 1e-05, conv = true
(0) 12:53:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.61079e-05, limit = 1e-05, conv = false
(0) 12:53:52 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 25 | t 0.00024 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 25 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.400000e-04
 actual step time=2.500000e-04
 actual total time=2.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 9565 and dof 2
 largest increment of disp= 6.335230e-07
 largest correction to disp= 1.607755e-08 in node 8773 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000427
 time avg. forc= 0.000193
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 6.335230e-07
 largest correction to disp= 4.783194e-13 in node 9838 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:54:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.98971e-12, limit = 1e-05, conv = true
(0) 12:54:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.6645e-06, limit = 1e-05, conv = true
(0) 12:54:09 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 12:54:09 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 12:54:09 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 12:54:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 26 | t 0.00025 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 1.252831e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 1.252831e-05

 actual energy: 
 internal energy = 1.966147e-06
 kinetic energy = 1.055373e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 1.251988e-05

 energy increase = 1.251988e-05

 energy balance (absolute) = -8.428882e-09 
 energy balance (relative) = 0.067279 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 26 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=2.500000e-04
 actual step time=2.600000e-04
 actual total time=2.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000475
 time avg. forc= 0.000204
 largest residual force= 0.000000 in node 9147 and dof 2
 largest increment of disp= 6.540043e-07
 largest correction to disp= 9.004473e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000475
 time avg. forc= 0.000204
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 6.540043e-07
 largest correction to disp= 1.326701e-12 in node 9147 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:54:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.54848e-06, limit = 1e-05, conv = true
(0) 12:54:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.328444, limit = 1e-05, conv = false
(0) 12:54:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 26 | t 0.00025 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 26 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.500000e-04
 actual step time=2.600000e-04
 actual total time=2.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.540043e-07
 largest correction to disp= 1.864448e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 6.540043e-07
 largest correction to disp= 4.606519e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:55:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.16551e-07, limit = 1e-05, conv = true
(0) 12:55:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.316624, limit = 1e-05, conv = false
(0) 12:55:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 26 | t 0.00025 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 26 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.500000e-04
 actual step time=2.600000e-04
 actual total time=2.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.540043e-07
 largest correction to disp= 1.954358e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 6.540043e-07
 largest correction to disp= 4.453774e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:55:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.13219e-08, limit = 1e-05, conv = true
(0) 12:55:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0161902, limit = 1e-05, conv = false
(0) 12:55:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 26 | t 0.00025 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 26 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.500000e-04
 actual step time=2.600000e-04
 actual total time=2.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.540043e-07
 largest correction to disp= 1.938547e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 6.540043e-07
 largest correction to disp= 4.520241e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:56:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.06684e-09, limit = 1e-05, conv = true
(0) 12:56:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00588716, limit = 1e-05, conv = false
(0) 12:56:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 26 | t 0.00025 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 26 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.500000e-04
 actual step time=2.600000e-04
 actual total time=2.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.540043e-07
 largest correction to disp= 1.940964e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 6.540043e-07
 largest correction to disp= 4.520358e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:56:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.27118e-09, limit = 1e-05, conv = true
(0) 12:56:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000934257, limit = 1e-05, conv = false
(0) 12:56:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 26 | t 0.00025 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 26 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.500000e-04
 actual step time=2.600000e-04
 actual total time=2.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.540043e-07
 largest correction to disp= 1.941039e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 6.540043e-07
 largest correction to disp= 4.518441e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:57:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.65308e-10, limit = 1e-05, conv = true
(0) 12:57:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000266227, limit = 1e-05, conv = false
(0) 12:57:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 26 | t 0.00025 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 26 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.500000e-04
 actual step time=2.600000e-04
 actual total time=2.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.001515 in node 21460 and dof 3
 largest increment of disp= 6.540043e-07
 largest correction to disp= 1.940978e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.000000 in node 24228 and dof 2
 largest increment of disp= 6.540043e-07
 largest correction to disp= 8.031297e-10 in node 20302 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:57:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.10081e-10, limit = 1e-05, conv = true
(0) 12:57:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.6034e-05, limit = 1e-05, conv = false
(0) 12:57:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 26 | t 0.00025 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 26 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.500000e-04
 actual step time=2.600000e-04
 actual total time=2.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.540043e-07
 largest correction to disp= 1.940889e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 6.540043e-07
 largest correction to disp= 4.518603e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:58:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.66022e-11, limit = 1e-05, conv = true
(0) 12:58:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.15987e-05, limit = 1e-05, conv = false
(0) 12:58:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 26 | t 0.00025 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 26 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.500000e-04
 actual step time=2.600000e-04
 actual total time=2.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.540043e-07
 largest correction to disp= 1.940897e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000452
 time avg. forc= 0.000203
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 6.540043e-07
 largest correction to disp= 4.518558e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:58:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.48657e-12, limit = 1e-05, conv = true
(0) 12:58:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.16608e-06, limit = 1e-05, conv = true
(0) 12:58:39 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 12:58:39 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 12:58:39 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 12:58:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 27 | t 0.00026 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 1.357317e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 1.357317e-05

 actual energy: 
 internal energy = 2.184310e-06
 kinetic energy = 1.138402e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 1.356833e-05

 energy increase = 1.356833e-05

 energy balance (absolute) = -4.840714e-09 
 energy balance (relative) = 0.035664 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 27 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=2.600000e-04
 actual step time=2.700000e-04
 actual total time=2.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000494
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.802689e-07
 largest correction to disp= 7.858421e-08 in node 38241 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000494
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 6.802689e-07
 largest correction to disp= 3.289050e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:59:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.52946e-06, limit = 1e-05, conv = true
(0) 12:59:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.312522, limit = 1e-05, conv = false
(0) 12:59:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 27 | t 0.00026 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 27 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.600000e-04
 actual step time=2.700000e-04
 actual total time=2.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000480
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.802689e-07
 largest correction to disp= 1.303050e-08 in node 8789 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000480
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 6.802689e-07
 largest correction to disp= 4.063757e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 12:59:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.20553e-07, limit = 1e-05, conv = true
(0) 12:59:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.304139, limit = 1e-05, conv = false
(0) 12:59:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 27 | t 0.00026 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 27 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.600000e-04
 actual step time=2.700000e-04
 actual total time=2.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000478
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.802689e-07
 largest correction to disp= 1.305904e-08 in node 8789 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000478
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 6.802689e-07
 largest correction to disp= 4.240402e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:00:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.41224e-08, limit = 1e-05, conv = true
(0) 13:00:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0288759, limit = 1e-05, conv = false
(0) 13:00:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 27 | t 0.00026 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 27 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.600000e-04
 actual step time=2.700000e-04
 actual total time=2.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000479
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.802689e-07
 largest correction to disp= 1.325545e-08 in node 8789 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000479
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 30405 and dof 3
 largest increment of disp= 6.802689e-07
 largest correction to disp= 4.160527e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:00:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.57358e-08, limit = 1e-05, conv = true
(0) 13:00:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0108094, limit = 1e-05, conv = false
(0) 13:00:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 27 | t 0.00026 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 27 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.600000e-04
 actual step time=2.700000e-04
 actual total time=2.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000479
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.802689e-07
 largest correction to disp= 1.315484e-08 in node 8789 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000479
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 6.802689e-07
 largest correction to disp= 4.176761e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:01:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.52527e-09, limit = 1e-05, conv = true
(0) 13:01:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00206135, limit = 1e-05, conv = false
(0) 13:01:25 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 27 | t 0.00026 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 27 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.600000e-04
 actual step time=2.700000e-04
 actual total time=2.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000479
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.802689e-07
 largest correction to disp= 1.316046e-08 in node 8789 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000479
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 6.802689e-07
 largest correction to disp= 4.181244e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:01:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.95254e-10, limit = 1e-05, conv = true
(0) 13:01:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000703219, limit = 1e-05, conv = false
(0) 13:01:56 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 27 | t 0.00026 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 27 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.600000e-04
 actual step time=2.700000e-04
 actual total time=2.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000479
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.802689e-07
 largest correction to disp= 1.316527e-08 in node 8789 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000479
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 6.802689e-07
 largest correction to disp= 4.181304e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:02:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.35995e-10, limit = 1e-05, conv = true
(0) 13:02:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000106442, limit = 1e-05, conv = false
(0) 13:02:26 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 27 | t 0.00026 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 27 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.600000e-04
 actual step time=2.700000e-04
 actual total time=2.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000479
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.802689e-07
 largest correction to disp= 1.316493e-08 in node 8789 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000479
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 6.802689e-07
 largest correction to disp= 4.181332e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:02:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.51341e-11, limit = 1e-05, conv = true
(0) 13:02:43 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.05204e-05, limit = 1e-05, conv = false
(0) 13:02:57 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 27 | t 0.00026 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 27 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.600000e-04
 actual step time=2.700000e-04
 actual total time=2.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000479
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.802689e-07
 largest correction to disp= 1.316486e-08 in node 8789 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000479
 time avg. forc= 0.000213
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 6.802689e-07
 largest correction to disp= 4.181308e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:03:13 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.03266e-11, limit = 1e-05, conv = true
(0) 13:03:13 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.40152e-06, limit = 1e-05, conv = true
(0) 13:03:13 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 13:03:13 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 13:03:13 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 13:03:28 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 28 | t 0.00027 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 1.466538e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 1.466538e-05

 actual energy: 
 internal energy = 2.419470e-06
 kinetic energy = 1.223736e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 1.465683e-05

 energy increase = 1.465683e-05

 energy balance (absolute) = -8.547207e-09 
 energy balance (relative) = 0.058282 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 28 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=2.700000e-04
 actual step time=2.800000e-04
 actual total time=2.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000514
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 8751 and dof 2
 largest increment of disp= 6.974622e-07
 largest correction to disp= 8.244758e-08 in node 6693 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000514
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 6.974622e-07
 largest correction to disp= 1.148261e-12 in node 8615 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:03:44 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.52149e-06, limit = 1e-05, conv = true
(0) 13:03:44 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.309975, limit = 1e-05, conv = false
(0) 13:03:58 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 28 | t 0.00027 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 28 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.700000e-04
 actual step time=2.800000e-04
 actual total time=2.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000513
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.974622e-07
 largest correction to disp= 1.608351e-08 in node 7048 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000513
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 16701 and dof 1
 largest increment of disp= 6.974622e-07
 largest correction to disp= 3.775843e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:04:15 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.6989e-08, limit = 1e-05, conv = true
(0) 13:04:15 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.308181, limit = 1e-05, conv = false
(0) 13:04:29 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 28 | t 0.00027 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 28 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.700000e-04
 actual step time=2.800000e-04
 actual total time=2.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000511
 time avg. forc= 0.000223
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.974622e-07
 largest correction to disp= 1.567472e-08 in node 7048 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000511
 time avg. forc= 0.000223
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 6.974622e-07
 largest correction to disp= 3.716904e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:04:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.04664e-08, limit = 1e-05, conv = true
(0) 13:04:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0122348, limit = 1e-05, conv = false
(0) 13:04:59 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 28 | t 0.00027 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 28 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.700000e-04
 actual step time=2.800000e-04
 actual total time=2.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000511
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.974622e-07
 largest correction to disp= 1.574405e-08 in node 7048 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000511
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 6.974622e-07
 largest correction to disp= 3.727305e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:05:15 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.51083e-09, limit = 1e-05, conv = true
(0) 13:05:15 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00489095, limit = 1e-05, conv = false
(0) 13:05:29 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 28 | t 0.00027 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 28 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.700000e-04
 actual step time=2.800000e-04
 actual total time=2.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000511
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.974622e-07
 largest correction to disp= 1.570713e-08 in node 7048 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000511
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 6.974622e-07
 largest correction to disp= 3.724783e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:05:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.55384e-09, limit = 1e-05, conv = true
(0) 13:05:45 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00179435, limit = 1e-05, conv = false
(0) 13:05:59 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 28 | t 0.00027 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 28 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.700000e-04
 actual step time=2.800000e-04
 actual total time=2.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000511
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.974622e-07
 largest correction to disp= 1.571528e-08 in node 7048 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000511
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 6.974622e-07
 largest correction to disp= 3.726073e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:06:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.74185e-10, limit = 1e-05, conv = true
(0) 13:06:16 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000496429, limit = 1e-05, conv = false
(0) 13:06:30 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 28 | t 0.00027 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 28 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.700000e-04
 actual step time=2.800000e-04
 actual total time=2.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000511
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.974622e-07
 largest correction to disp= 1.571668e-08 in node 7048 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000511
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 6.974622e-07
 largest correction to disp= 3.726846e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:06:46 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.74402e-10, limit = 1e-05, conv = true
(0) 13:06:46 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.50991e-05, limit = 1e-05, conv = false
(0) 13:07:00 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 28 | t 0.00027 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 28 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.700000e-04
 actual step time=2.800000e-04
 actual total time=2.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000511
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.974622e-07
 largest correction to disp= 1.571607e-08 in node 7048 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000511
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 6.974622e-07
 largest correction to disp= 3.726558e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:07:17 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.04271e-11, limit = 1e-05, conv = true
(0) 13:07:17 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.67079e-05, limit = 1e-05, conv = false
(0) 13:07:30 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 28 | t 0.00027 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 28 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.700000e-04
 actual step time=2.800000e-04
 actual total time=2.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000511
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 6.974622e-07
 largest correction to disp= 1.571599e-08 in node 7048 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000511
 time avg. forc= 0.000224
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 6.974622e-07
 largest correction to disp= 3.726606e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:07:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.17134e-11, limit = 1e-05, conv = true
(0) 13:07:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.17035e-06, limit = 1e-05, conv = true
(0) 13:07:47 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 13:07:47 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 13:07:47 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 13:08:01 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 29 | t 0.00028 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 1.581806e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 1.581806e-05

 actual energy: 
 internal energy = 2.672496e-06
 kinetic energy = 1.314070e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 1.581319e-05

 energy increase = 1.581319e-05

 energy balance (absolute) = -4.869063e-09 
 energy balance (relative) = 0.030782 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 29 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=2.800000e-04
 actual step time=2.900000e-04
 actual total time=2.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000538
 time avg. forc= 0.000234
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 7.527306e-08 in node 33209 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000538
 time avg. forc= 0.000234
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 3.694769e-13 in node 5548 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:08:17 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.52704e-06, limit = 1e-05, conv = true
(0) 13:08:17 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.316558, limit = 1e-05, conv = false
(0) 13:08:31 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 29 | t 0.00028 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 29 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.800000e-04
 actual step time=2.900000e-04
 actual total time=2.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000552
 time avg. forc= 0.000235
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 1.125382e-08 in node 36518 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000552
 time avg. forc= 0.000235
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 3.518945e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:08:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.23543e-08, limit = 1e-05, conv = true
(0) 13:08:47 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.338273, limit = 1e-05, conv = false
(0) 13:09:01 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 29 | t 0.00028 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 29 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.800000e-04
 actual step time=2.900000e-04
 actual total time=2.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000547
 time avg. forc= 0.000235
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 1.159821e-08 in node 36518 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000547
 time avg. forc= 0.000235
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 3.599156e-13 in node 9973 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:09:18 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.73098e-08, limit = 1e-05, conv = true
(0) 13:09:18 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0168267, limit = 1e-05, conv = false
(0) 13:09:32 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 29 | t 0.00028 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 29 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.800000e-04
 actual step time=2.900000e-04
 actual total time=2.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000547
 time avg. forc= 0.000235
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 1.144269e-08 in node 36518 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000547
 time avg. forc= 0.000235
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 3.624129e-13 in node 9973 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:09:49 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.36609e-09, limit = 1e-05, conv = true
(0) 13:09:49 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00291172, limit = 1e-05, conv = false
(0) 13:10:03 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 29 | t 0.00028 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 29 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.800000e-04
 actual step time=2.900000e-04
 actual total time=2.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000547
 time avg. forc= 0.000235
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 1.146488e-08 in node 36518 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000547
 time avg. forc= 0.000235
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 3.604994e-13 in node 9973 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:10:20 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.9102e-09, limit = 1e-05, conv = true
(0) 13:10:20 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00161611, limit = 1e-05, conv = false
(0) 13:10:33 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 29 | t 0.00028 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 29 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.800000e-04
 actual step time=2.900000e-04
 actual total time=2.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000547
 time avg. forc= 0.000235
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 1.145726e-08 in node 36518 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000547
 time avg. forc= 0.000235
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 3.605499e-13 in node 9973 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:10:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.15827e-10, limit = 1e-05, conv = true
(0) 13:10:50 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000230763, limit = 1e-05, conv = false
(0) 13:11:04 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 29 | t 0.00028 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 29 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.800000e-04
 actual step time=2.900000e-04
 actual total time=2.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000547
 time avg. forc= 0.000235
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 1.145781e-08 in node 36518 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000547
 time avg. forc= 0.000235
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 3.605583e-13 in node 9973 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:11:21 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.96717e-11, limit = 1e-05, conv = true
(0) 13:11:21 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.86688e-05, limit = 1e-05, conv = false
(0) 13:11:35 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 29 | t 0.00028 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 29 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.800000e-04
 actual step time=2.900000e-04
 actual total time=2.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000547
 time avg. forc= 0.000235
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 1.145899e-08 in node 36518 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000547
 time avg. forc= 0.000235
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 7.182556e-07
 largest correction to disp= 3.605520e-13 in node 9973 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:11:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.12732e-11, limit = 1e-05, conv = true
(0) 13:11:51 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.46051e-06, limit = 1e-05, conv = true
(0) 13:11:51 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 13:11:52 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 13:11:52 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 13:12:07 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 30 | t 0.00029 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 1.701509e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 1.701509e-05

 actual energy: 
 internal energy = 2.942269e-06
 kinetic energy = 1.406253e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 1.700480e-05

 energy increase = 1.700480e-05

 energy balance (absolute) = -1.029006e-08 
 energy balance (relative) = 0.060476 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 30 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=2.900000e-04
 actual step time=3.000000e-04
 actual total time=3.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000567
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 8615 and dof 2
 largest increment of disp= 7.307063e-07
 largest correction to disp= 8.338971e-08 in node 8757 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000567
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 7.307063e-07
 largest correction to disp= 1.420593e-12 in node 8615 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:12:23 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.54349e-06, limit = 1e-05, conv = true
(0) 13:12:23 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.354119, limit = 1e-05, conv = false
(0) 13:12:37 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 30 | t 0.00029 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 30 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.900000e-04
 actual step time=3.000000e-04
 actual total time=3.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000578
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.307063e-07
 largest correction to disp= 1.428057e-08 in node 6990 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000578
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 7.307063e-07
 largest correction to disp= 3.527896e-13 in node 5295 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:12:53 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.00936e-07, limit = 1e-05, conv = true
(0) 13:12:53 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.355542, limit = 1e-05, conv = false
(0) 13:13:07 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 30 | t 0.00029 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 30 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.900000e-04
 actual step time=3.000000e-04
 actual total time=3.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000583
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.307063e-07
 largest correction to disp= 1.518504e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000583
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 7.307063e-07
 largest correction to disp= 3.510221e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:13:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.582e-08, limit = 1e-05, conv = true
(0) 13:13:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0227774, limit = 1e-05, conv = false
(0) 13:13:37 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 30 | t 0.00029 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 30 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.900000e-04
 actual step time=3.000000e-04
 actual total time=3.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000580
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.307063e-07
 largest correction to disp= 1.499424e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000580
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 7.307063e-07
 largest correction to disp= 3.441356e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:13:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.09656e-08, limit = 1e-05, conv = true
(0) 13:13:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0124393, limit = 1e-05, conv = false
(0) 13:14:08 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 30 | t 0.00029 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 30 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.900000e-04
 actual step time=3.000000e-04
 actual total time=3.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000580
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.307063e-07
 largest correction to disp= 1.494959e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000580
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 7.307063e-07
 largest correction to disp= 3.459474e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:14:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.16225e-09, limit = 1e-05, conv = true
(0) 13:14:24 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00269315, limit = 1e-05, conv = false
(0) 13:14:38 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 30 | t 0.00029 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 30 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.900000e-04
 actual step time=3.000000e-04
 actual total time=3.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000580
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.307063e-07
 largest correction to disp= 1.495877e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000580
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 7.307063e-07
 largest correction to disp= 3.457970e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:14:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.76269e-10, limit = 1e-05, conv = true
(0) 13:14:54 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000210602, limit = 1e-05, conv = false
(0) 13:15:08 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 30 | t 0.00029 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 30 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.900000e-04
 actual step time=3.000000e-04
 actual total time=3.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000580
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.307063e-07
 largest correction to disp= 1.496038e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000580
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 7.307063e-07
 largest correction to disp= 3.458382e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:15:25 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.68504e-11, limit = 1e-05, conv = true
(0) 13:15:25 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000112159, limit = 1e-05, conv = false
(0) 13:15:38 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 30 | t 0.00029 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 30 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.900000e-04
 actual step time=3.000000e-04
 actual total time=3.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000580
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.307063e-07
 largest correction to disp= 1.496019e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000580
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 7.307063e-07
 largest correction to disp= 3.458470e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:15:55 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.56733e-11, limit = 1e-05, conv = true
(0) 13:15:55 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.23296e-05, limit = 1e-05, conv = false
(0) 13:16:09 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 30 | t 0.00029 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 30 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=2.900000e-04
 actual step time=3.000000e-04
 actual total time=3.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000580
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.307063e-07
 largest correction to disp= 1.495987e-08 in node 9147 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000580
 time avg. forc= 0.000246
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 7.307063e-07
 largest correction to disp= 3.458499e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:16:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.78354e-12, limit = 1e-05, conv = true
(0) 13:16:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.97939e-06, limit = 1e-05, conv = true
(0) 13:16:26 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 13:16:26 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 13:16:26 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 13:16:39 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 31 | t 0.0003 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 1.824717e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 1.824717e-05

 actual energy: 
 internal energy = 3.227441e-06
 kinetic energy = 1.501386e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 1.824130e-05

 energy increase = 1.824130e-05

 energy balance (absolute) = -5.870829e-09 
 energy balance (relative) = 0.032174 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 31 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-04
 actual step time=3.100000e-04
 actual total time=3.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000598
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.465764e-07
 largest correction to disp= 7.924737e-08 in node 34749 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000598
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 7.465764e-07
 largest correction to disp= 5.831603e-13 in node 10184 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:16:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.5637e-06, limit = 1e-05, conv = true
(0) 13:16:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.367626, limit = 1e-05, conv = false
(0) 13:17:10 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 31 | t 0.0003 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 31 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-04
 actual step time=3.100000e-04
 actual total time=3.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000602
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.465764e-07
 largest correction to disp= 1.270081e-08 in node 28980 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000602
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 7.465764e-07
 largest correction to disp= 4.192529e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:17:27 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.05184e-07, limit = 1e-05, conv = true
(0) 13:17:27 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.360096, limit = 1e-05, conv = false
(0) 13:17:39 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 31 | t 0.0003 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 31 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-04
 actual step time=3.100000e-04
 actual total time=3.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000608
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.465764e-07
 largest correction to disp= 1.252486e-08 in node 28980 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000608
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 22798 and dof 2
 largest increment of disp= 7.465764e-07
 largest correction to disp= 4.087967e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:17:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.48673e-08, limit = 1e-05, conv = true
(0) 13:17:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0283618, limit = 1e-05, conv = false
(0) 13:18:10 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 31 | t 0.0003 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 31 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-04
 actual step time=3.100000e-04
 actual total time=3.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000607
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.465764e-07
 largest correction to disp= 1.268506e-08 in node 28980 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000607
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 7.465764e-07
 largest correction to disp= 4.077190e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:18:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.05758e-08, limit = 1e-05, conv = true
(0) 13:18:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0045249, limit = 1e-05, conv = false
(0) 13:18:39 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 31 | t 0.0003 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 31 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-04
 actual step time=3.100000e-04
 actual total time=3.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000607
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.465764e-07
 largest correction to disp= 1.265840e-08 in node 28980 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000607
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 7.465764e-07
 largest correction to disp= 4.097863e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:18:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.63821e-09, limit = 1e-05, conv = true
(0) 13:18:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00228846, limit = 1e-05, conv = false
(0) 13:19:10 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 31 | t 0.0003 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 31 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-04
 actual step time=3.100000e-04
 actual total time=3.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000607
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.465764e-07
 largest correction to disp= 1.267387e-08 in node 28980 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000607
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 7.465764e-07
 largest correction to disp= 4.094089e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:19:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.73304e-10, limit = 1e-05, conv = true
(0) 13:19:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000466821, limit = 1e-05, conv = false
(0) 13:19:39 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 31 | t 0.0003 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 31 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-04
 actual step time=3.100000e-04
 actual total time=3.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000607
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.465764e-07
 largest correction to disp= 1.267482e-08 in node 28980 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000607
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 7.465764e-07
 largest correction to disp= 4.094170e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:19:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.04015e-10, limit = 1e-05, conv = true
(0) 13:19:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.01869e-05, limit = 1e-05, conv = false
(0) 13:20:10 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 31 | t 0.0003 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 31 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-04
 actual step time=3.100000e-04
 actual total time=3.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000607
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.465764e-07
 largest correction to disp= 1.267379e-08 in node 28980 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000607
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 7.465764e-07
 largest correction to disp= 4.094211e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:20:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.35757e-11, limit = 1e-05, conv = true
(0) 13:20:26 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.53715e-05, limit = 1e-05, conv = false
(0) 13:20:39 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 31 | t 0.0003 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 31 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.000000e-04
 actual step time=3.100000e-04
 actual total time=3.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000607
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.465764e-07
 largest correction to disp= 1.267392e-08 in node 28980 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000607
 time avg. forc= 0.000258
 largest residual force= 0.000000 in node 22821 and dof 2
 largest increment of disp= 7.465764e-07
 largest correction to disp= 4.094162e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:20:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.8645e-12, limit = 1e-05, conv = true
(0) 13:20:56 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.23062e-06, limit = 1e-05, conv = true
(0) 13:20:56 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 13:20:57 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 13:20:57 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 13:21:11 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 32 | t 0.00031 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 1.952538e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 1.952538e-05

 actual energy: 
 internal energy = 3.525965e-06
 kinetic energy = 1.598900e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 1.951496e-05

 energy increase = 1.951496e-05

 energy balance (absolute) = -1.041928e-08 
 energy balance (relative) = 0.053363 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 32 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=3.100000e-04
 actual step time=3.200000e-04
 actual total time=3.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000625
 time avg. forc= 0.000269
 largest residual force= 0.001210 in node 32808 and dof 1
 largest increment of disp= 7.610280e-07
 largest correction to disp= 8.964645e-08 in node 8757 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000625
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 38150 and dof 1
 largest increment of disp= 7.610280e-07
 largest correction to disp= 5.457577e-10 in node 32808 and dof 1

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:21:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.60839e-06, limit = 1e-05, conv = true
(0) 13:21:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.365736, limit = 1e-05, conv = false
(0) 13:21:40 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 32 | t 0.00031 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 32 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.100000e-04
 actual step time=3.200000e-04
 actual total time=3.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000635
 time avg. forc= 0.000270
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.610280e-07
 largest correction to disp= 1.583490e-08 in node 9156 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000635
 time avg. forc= 0.000270
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 7.610280e-07
 largest correction to disp= 4.069260e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:21:57 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.0906e-07, limit = 1e-05, conv = true
(0) 13:21:57 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.365537, limit = 1e-05, conv = false
(0) 13:22:11 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 32 | t 0.00031 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 32 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.100000e-04
 actual step time=3.200000e-04
 actual total time=3.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000627
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.610280e-07
 largest correction to disp= 1.600611e-08 in node 8757 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000627
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 7.610280e-07
 largest correction to disp= 3.887916e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:22:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.72035e-08, limit = 1e-05, conv = true
(0) 13:22:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0328395, limit = 1e-05, conv = false
(0) 13:22:41 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 32 | t 0.00031 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 32 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.100000e-04
 actual step time=3.200000e-04
 actual total time=3.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000629
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.610280e-07
 largest correction to disp= 1.598793e-08 in node 8757 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000629
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 7.610280e-07
 largest correction to disp= 3.917678e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:22:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.10721e-08, limit = 1e-05, conv = true
(0) 13:22:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00713612, limit = 1e-05, conv = false
(0) 13:23:12 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 32 | t 0.00031 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 32 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.100000e-04
 actual step time=3.200000e-04
 actual total time=3.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000629
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.610280e-07
 largest correction to disp= 1.586344e-08 in node 8757 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000629
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 7.610280e-07
 largest correction to disp= 3.920560e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:23:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.06269e-09, limit = 1e-05, conv = true
(0) 13:23:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000908634, limit = 1e-05, conv = false
(0) 13:23:41 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 32 | t 0.00031 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 32 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.100000e-04
 actual step time=3.200000e-04
 actual total time=3.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000629
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.610280e-07
 largest correction to disp= 1.593533e-08 in node 8757 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000629
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 7.610280e-07
 largest correction to disp= 3.917804e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:23:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.97007e-10, limit = 1e-05, conv = true
(0) 13:23:58 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000692798, limit = 1e-05, conv = false
(0) 13:24:12 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 32 | t 0.00031 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 32 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.100000e-04
 actual step time=3.200000e-04
 actual total time=3.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000629
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.610280e-07
 largest correction to disp= 1.592755e-08 in node 8757 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000629
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 7.610280e-07
 largest correction to disp= 3.917653e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:24:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.19797e-10, limit = 1e-05, conv = true
(0) 13:24:28 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000128448, limit = 1e-05, conv = false
(0) 13:24:43 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 32 | t 0.00031 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 32 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.100000e-04
 actual step time=3.200000e-04
 actual total time=3.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000629
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.610280e-07
 largest correction to disp= 1.592582e-08 in node 8757 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000629
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 16734 and dof 2
 largest increment of disp= 7.610280e-07
 largest correction to disp= 3.918209e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:24:59 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.09004e-11, limit = 1e-05, conv = true
(0) 13:24:59 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.62395e-05, limit = 1e-05, conv = false
(0) 13:25:13 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 32 | t 0.00031 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 32 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.100000e-04
 actual step time=3.200000e-04
 actual total time=3.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000629
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.610280e-07
 largest correction to disp= 1.592594e-08 in node 8757 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000629
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 7.610280e-07
 largest correction to disp= 3.918127e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:25:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.91053e-11, limit = 1e-05, conv = true
(0) 13:25:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.37467e-05, limit = 1e-05, conv = false
(0) 13:25:43 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 32 | t 0.00031 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 32 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.100000e-04
 actual step time=3.200000e-04
 actual total time=3.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000629
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.610280e-07
 largest correction to disp= 1.592593e-08 in node 8757 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000629
 time avg. forc= 0.000269
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 7.610280e-07
 largest correction to disp= 3.918150e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:25:59 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.803e-12, limit = 1e-05, conv = true
(0) 13:25:59 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.38621e-06, limit = 1e-05, conv = true
(0) 13:25:59 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 13:26:00 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 13:26:00 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 13:26:14 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 33 | t 0.00032 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 2.084150e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 2.084150e-05

 actual energy: 
 internal energy = 3.838674e-06
 kinetic energy = 1.699622e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 2.083490e-05

 energy increase = 2.083490e-05

 energy balance (absolute) = -6.601765e-09 
 energy balance (relative) = 0.031676 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 33 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=3.200000e-04
 actual step time=3.300000e-04
 actual total time=3.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000651
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 37891 and dof 3
 largest increment of disp= 7.873304e-07
 largest correction to disp= 8.892444e-08 in node 8831 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000651
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 2.724689e-13 in node 6629 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:26:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.70061e-06, limit = 1e-05, conv = true
(0) 13:26:30 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.331245, limit = 1e-05, conv = false
(0) 13:26:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 33 | t 0.00032 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 33 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.200000e-04
 actual step time=3.300000e-04
 actual total time=3.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000652
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 1.708701e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000652
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 7.873304e-07
 largest correction to disp= 3.879322e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:27:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.26334e-07, limit = 1e-05, conv = true
(0) 13:27:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.304293, limit = 1e-05, conv = false
(0) 13:27:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 33 | t 0.00032 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 33 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.200000e-04
 actual step time=3.300000e-04
 actual total time=3.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000654
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 7.873304e-07
 largest correction to disp= 1.629773e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000654
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 3.676404e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:27:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.46137e-08, limit = 1e-05, conv = true
(0) 13:27:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0568005, limit = 1e-05, conv = false
(0) 13:27:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 33 | t 0.00032 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 33 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.200000e-04
 actual step time=3.300000e-04
 actual total time=3.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000653
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 1.639472e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000653
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 3.703065e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:28:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.0497e-08, limit = 1e-05, conv = true
(0) 13:28:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00985892, limit = 1e-05, conv = false
(0) 13:28:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 33 | t 0.00032 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 33 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.200000e-04
 actual step time=3.300000e-04
 actual total time=3.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000653
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 1.635101e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000653
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 3.703513e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:28:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.55178e-09, limit = 1e-05, conv = true
(0) 13:28:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0013166, limit = 1e-05, conv = false
(0) 13:28:46 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 33 | t 0.00032 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 33 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.200000e-04
 actual step time=3.300000e-04
 actual total time=3.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000653
 time avg. forc= 0.000281
 largest residual force= 0.000179 in node 19995 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 1.636369e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000653
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 19998 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 1.307504e-10 in node 19995 and dof 1

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:29:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.9002e-10, limit = 1e-05, conv = true
(0) 13:29:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000365796, limit = 1e-05, conv = false
(0) 13:29:17 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 33 | t 0.00032 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 33 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.200000e-04
 actual step time=3.300000e-04
 actual total time=3.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000653
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 1.636179e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000653
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 3.704886e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:29:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.02054e-10, limit = 1e-05, conv = true
(0) 13:29:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000146484, limit = 1e-05, conv = false
(0) 13:29:47 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 33 | t 0.00032 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 33 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.200000e-04
 actual step time=3.300000e-04
 actual total time=3.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000653
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 1.636385e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000653
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 3.704335e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:30:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.45419e-10, limit = 1e-05, conv = true
(0) 13:30:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.0463e-05, limit = 1e-05, conv = false
(0) 13:30:17 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 33 | t 0.00032 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 33 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.200000e-04
 actual step time=3.300000e-04
 actual total time=3.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000653
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 1.636255e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000653
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 3.704581e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:30:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.31184e-11, limit = 1e-05, conv = true
(0) 13:30:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.71128e-05, limit = 1e-05, conv = false
(0) 13:30:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 33 | t 0.00032 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 33 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.200000e-04
 actual step time=3.300000e-04
 actual total time=3.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000653
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 1.636276e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000653
 time avg. forc= 0.000281
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 7.873304e-07
 largest correction to disp= 3.704556e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:31:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.70808e-12, limit = 1e-05, conv = true
(0) 13:31:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.97216e-06, limit = 1e-05, conv = true
(0) 13:31:04 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 13:31:04 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 13:31:04 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 13:31:18 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 34 | t 0.00033 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 2.222073e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 2.222073e-05

 actual energy: 
 internal energy = 4.171157e-06
 kinetic energy = 1.803940e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 2.221055e-05

 energy increase = 2.221055e-05

 energy balance (absolute) = -1.017697e-08 
 energy balance (relative) = 0.045799 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 34 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=3.300000e-04
 actual step time=3.400000e-04
 actual total time=3.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000679
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 1.013563e-07 in node 8831 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000679
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 9.143552e-13 in node 9147 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:31:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.84696e-06, limit = 1e-05, conv = true
(0) 13:31:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.306249, limit = 1e-05, conv = false
(0) 13:31:49 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 34 | t 0.00033 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 34 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.300000e-04
 actual step time=3.400000e-04
 actual total time=3.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 2.307229e-08 in node 8831 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 4.745396e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:32:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.71495e-08, limit = 1e-05, conv = true
(0) 13:32:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.300217, limit = 1e-05, conv = false
(0) 13:32:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 34 | t 0.00033 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 34 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.300000e-04
 actual step time=3.400000e-04
 actual total time=3.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000685
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 2.276844e-08 in node 8925 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000685
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 4.885168e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:32:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.72445e-08, limit = 1e-05, conv = true
(0) 13:32:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0142662, limit = 1e-05, conv = false
(0) 13:32:49 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 34 | t 0.00033 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 34 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.300000e-04
 actual step time=3.400000e-04
 actual total time=3.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.002140 in node 31572 and dof 2
 largest increment of disp= 8.248477e-07
 largest correction to disp= 2.295573e-08 in node 8925 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 4045 and dof 2
 largest increment of disp= 8.248477e-07
 largest correction to disp= 1.415950e-09 in node 4046 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:33:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.5936e-08, limit = 1e-05, conv = true
(0) 13:33:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00505439, limit = 1e-05, conv = false
(0) 13:33:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 34 | t 0.00033 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 34 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.300000e-04
 actual step time=3.400000e-04
 actual total time=3.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 2.280698e-08 in node 8925 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 8.248477e-07
 largest correction to disp= 4.892041e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:33:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.91876e-09, limit = 1e-05, conv = true
(0) 13:33:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00171765, limit = 1e-05, conv = false
(0) 13:33:49 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 34 | t 0.00033 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 34 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.300000e-04
 actual step time=3.400000e-04
 actual total time=3.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 2.280814e-08 in node 8925 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 4.892869e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:34:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.53403e-10, limit = 1e-05, conv = true
(0) 13:34:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000310046, limit = 1e-05, conv = false
(0) 13:34:20 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 34 | t 0.00033 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 34 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.300000e-04
 actual step time=3.400000e-04
 actual total time=3.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 2.281187e-08 in node 8925 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 4.891532e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:34:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.0756e-10, limit = 1e-05, conv = true
(0) 13:34:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000149657, limit = 1e-05, conv = false
(0) 13:34:50 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 34 | t 0.00033 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 34 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.300000e-04
 actual step time=3.400000e-04
 actual total time=3.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 2.281206e-08 in node 8925 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 4.891682e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:35:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.98048e-11, limit = 1e-05, conv = true
(0) 13:35:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.08502e-05, limit = 1e-05, conv = false
(0) 13:35:20 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 34 | t 0.00033 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 34 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.300000e-04
 actual step time=3.400000e-04
 actual total time=3.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 2.281203e-08 in node 8925 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 4.891617e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:35:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.1538e-11, limit = 1e-05, conv = true
(0) 13:35:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.24106e-05, limit = 1e-05, conv = false
(0) 13:35:50 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 34 | t 0.00033 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 34 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.300000e-04
 actual step time=3.400000e-04
 actual total time=3.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.001394 in node 31276 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 2.281200e-08 in node 8925 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000684
 time avg. forc= 0.000293
 largest residual force= 0.000000 in node 31276 and dof 1
 largest increment of disp= 8.248477e-07
 largest correction to disp= 4.969275e-10 in node 31276 and dof 1

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:36:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.65701e-12, limit = 1e-05, conv = true
(0) 13:36:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.54457e-06, limit = 1e-05, conv = true
(0) 13:36:07 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 13:36:07 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 13:36:07 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 13:36:21 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 35 | t 0.00034 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 2.366800e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 2.366800e-05

 actual energy: 
 internal energy = 4.526000e-06
 kinetic energy = 1.913458e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 2.366058e-05

 energy increase = 2.366058e-05

 energy balance (absolute) = -7.413783e-09 
 energy balance (relative) = 0.031324 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 35 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=3.400000e-04
 actual step time=3.500000e-04
 actual total time=3.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000713
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 31782 and dof 1
 largest increment of disp= 8.810671e-07
 largest correction to disp= 1.030826e-07 in node 8831 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000713
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 8.810671e-07
 largest correction to disp= 4.515646e-13 in node 11014 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:36:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.9235e-06, limit = 1e-05, conv = true
(0) 13:36:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.310366, limit = 1e-05, conv = false
(0) 13:36:50 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 35 | t 0.00034 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 35 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.400000e-04
 actual step time=3.500000e-04
 actual total time=3.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000720
 time avg. forc= 0.000305
 largest residual force= 0.000010 in node 20948 and dof 3
 largest increment of disp= 8.810671e-07
 largest correction to disp= 2.363036e-08 in node 8813 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000720
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 8.810671e-07
 largest correction to disp= 1.269952e-11 in node 20948 and dof 3

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:37:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.75183e-08, limit = 1e-05, conv = true
(0) 13:37:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.32627, limit = 1e-05, conv = false
(0) 13:37:20 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 35 | t 0.00034 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 35 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.400000e-04
 actual step time=3.500000e-04
 actual total time=3.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000721
 time avg. forc= 0.000305
 largest residual force= 0.001664 in node 25863 and dof 2
 largest increment of disp= 8.810671e-07
 largest correction to disp= 2.381687e-08 in node 8813 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000721
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 37943 and dof 2
 largest increment of disp= 8.810671e-07
 largest correction to disp= 3.919671e-10 in node 25863 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:37:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.52002e-08, limit = 1e-05, conv = true
(0) 13:37:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0115364, limit = 1e-05, conv = false
(0) 13:37:49 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 35 | t 0.00034 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 35 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.400000e-04
 actual step time=3.500000e-04
 actual total time=3.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000720
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 6950 and dof 2
 largest increment of disp= 8.810671e-07
 largest correction to disp= 2.379263e-08 in node 8813 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000720
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 8.810671e-07
 largest correction to disp= 3.372907e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:38:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.32667e-09, limit = 1e-05, conv = true
(0) 13:38:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00406992, limit = 1e-05, conv = false
(0) 13:38:18 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 35 | t 0.00034 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 35 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.400000e-04
 actual step time=3.500000e-04
 actual total time=3.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000720
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 6950 and dof 2
 largest increment of disp= 8.810671e-07
 largest correction to disp= 2.378456e-08 in node 8813 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000720
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 8.810671e-07
 largest correction to disp= 3.366386e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:38:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.26053e-09, limit = 1e-05, conv = true
(0) 13:38:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00160004, limit = 1e-05, conv = false
(0) 13:38:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 35 | t 0.00034 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 35 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.400000e-04
 actual step time=3.500000e-04
 actual total time=3.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000720
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 6950 and dof 2
 largest increment of disp= 8.810671e-07
 largest correction to disp= 2.379377e-08 in node 8813 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000720
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 8.810671e-07
 largest correction to disp= 3.368376e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:39:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.74007e-10, limit = 1e-05, conv = true
(0) 13:39:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000344684, limit = 1e-05, conv = false
(0) 13:39:18 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 35 | t 0.00034 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 35 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.400000e-04
 actual step time=3.500000e-04
 actual total time=3.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000720
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 6950 and dof 2
 largest increment of disp= 8.810671e-07
 largest correction to disp= 2.378902e-08 in node 8813 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000720
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 8.810671e-07
 largest correction to disp= 3.367862e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:39:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.2512e-10, limit = 1e-05, conv = true
(0) 13:39:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.52383e-05, limit = 1e-05, conv = false
(0) 13:39:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 35 | t 0.00034 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 35 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.400000e-04
 actual step time=3.500000e-04
 actual total time=3.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000720
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 6950 and dof 2
 largest increment of disp= 8.810671e-07
 largest correction to disp= 2.378920e-08 in node 8813 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000720
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 8.810671e-07
 largest correction to disp= 3.367921e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:40:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.68915e-11, limit = 1e-05, conv = true
(0) 13:40:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.9857e-05, limit = 1e-05, conv = false
(0) 13:40:17 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 35 | t 0.00034 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 35 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.400000e-04
 actual step time=3.500000e-04
 actual total time=3.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000720
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 6950 and dof 2
 largest increment of disp= 8.810671e-07
 largest correction to disp= 2.378947e-08 in node 8813 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000720
 time avg. forc= 0.000305
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 8.810671e-07
 largest correction to disp= 3.367943e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:40:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.00405e-11, limit = 1e-05, conv = true
(0) 13:40:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.85209e-06, limit = 1e-05, conv = true
(0) 13:40:33 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 13:40:33 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 13:40:33 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 13:40:47 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 36 | t 0.00035 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 2.516070e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 2.516070e-05

 actual energy: 
 internal energy = 4.899948e-06
 kinetic energy = 2.024833e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 2.514828e-05

 energy increase = 2.514828e-05

 energy balance (absolute) = -1.242670e-08 
 energy balance (relative) = 0.049389 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 36 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=3.500000e-04
 actual step time=3.600000e-04
 actual total time=3.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000750
 time avg. forc= 0.000317
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 9.966601e-08 in node 8827 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000750
 time avg. forc= 0.000317
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 1.308348e-12 in node 9147 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:41:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.83806e-06, limit = 1e-05, conv = true
(0) 13:41:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.350341, limit = 1e-05, conv = false
(0) 13:41:17 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 36 | t 0.00035 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 36 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.500000e-04
 actual step time=3.600000e-04
 actual total time=3.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000755
 time avg. forc= 0.000318
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 2.161387e-08 in node 8830 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000755
 time avg. forc= 0.000318
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 4.228390e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:41:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.67888e-08, limit = 1e-05, conv = true
(0) 13:41:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.361587, limit = 1e-05, conv = false
(0) 13:41:47 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 36 | t 0.00035 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 36 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.500000e-04
 actual step time=3.600000e-04
 actual total time=3.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000754
 time avg. forc= 0.000318
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 2.161605e-08 in node 8830 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000754
 time avg. forc= 0.000318
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 4.223059e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:42:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.09557e-08, limit = 1e-05, conv = true
(0) 13:42:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00772085, limit = 1e-05, conv = false
(0) 13:42:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 36 | t 0.00035 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 36 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.500000e-04
 actual step time=3.600000e-04
 actual total time=3.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000753
 time avg. forc= 0.000318
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 2.187275e-08 in node 8830 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000753
 time avg. forc= 0.000318
 largest residual force= 0.000000 in node 4579 and dof 3
 largest increment of disp= 9.383587e-07
 largest correction to disp= 4.253212e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:42:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.71074e-09, limit = 1e-05, conv = true
(0) 13:42:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00322294, limit = 1e-05, conv = false
(0) 13:42:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 36 | t 0.00035 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 36 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.500000e-04
 actual step time=3.600000e-04
 actual total time=3.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000754
 time avg. forc= 0.000318
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 2.185762e-08 in node 8830 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000754
 time avg. forc= 0.000318
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 4.244958e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:43:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.32727e-09, limit = 1e-05, conv = true
(0) 13:43:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00126258, limit = 1e-05, conv = false
(0) 13:43:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 36 | t 0.00035 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 36 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.500000e-04
 actual step time=3.600000e-04
 actual total time=3.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000754
 time avg. forc= 0.000318
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 2.185600e-08 in node 8830 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000754
 time avg. forc= 0.000318
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 4.243785e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:43:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.68815e-10, limit = 1e-05, conv = true
(0) 13:43:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000172909, limit = 1e-05, conv = false
(0) 13:43:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 36 | t 0.00035 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 36 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.500000e-04
 actual step time=3.600000e-04
 actual total time=3.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000754
 time avg. forc= 0.000318
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 2.185274e-08 in node 8830 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000754
 time avg. forc= 0.000318
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 4.244450e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:44:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.49409e-11, limit = 1e-05, conv = true
(0) 13:44:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000108218, limit = 1e-05, conv = false
(0) 13:44:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 36 | t 0.00035 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 36 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.500000e-04
 actual step time=3.600000e-04
 actual total time=3.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000754
 time avg. forc= 0.000318
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 2.185317e-08 in node 8830 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000754
 time avg. forc= 0.000318
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 4.244225e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:44:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.1978e-11, limit = 1e-05, conv = true
(0) 13:44:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.01275e-05, limit = 1e-05, conv = false
(0) 13:44:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 36 | t 0.00035 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 36 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.500000e-04
 actual step time=3.600000e-04
 actual total time=3.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000754
 time avg. forc= 0.000318
 largest residual force= 0.000044 in node 24082 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 2.185308e-08 in node 8830 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000754
 time avg. forc= 0.000318
 largest residual force= 0.000000 in node 24078 and dof 1
 largest increment of disp= 9.383587e-07
 largest correction to disp= 3.867870e-11 in node 24081 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:45:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.31019e-12, limit = 1e-05, conv = true
(0) 13:45:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.88429e-06, limit = 1e-05, conv = true
(0) 13:45:01 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 13:45:01 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 13:45:01 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 13:45:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 37 | t 0.00036 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 2.668658e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 2.668658e-05

 actual energy: 
 internal energy = 5.288799e-06
 kinetic energy = 2.138918e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 2.667798e-05

 energy increase = 2.667798e-05

 energy balance (absolute) = -8.603246e-09 
 energy balance (relative) = 0.032238 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 37 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=3.600000e-04
 actual step time=3.700000e-04
 actual total time=3.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000783
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 5295 and dof 2
 largest increment of disp= 9.861298e-07
 largest correction to disp= 8.892655e-08 in node 8941 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000783
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 22798 and dof 2
 largest increment of disp= 9.861298e-07
 largest correction to disp= 7.077018e-13 in node 9655 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:45:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.66988e-06, limit = 1e-05, conv = true
(0) 13:45:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.367988, limit = 1e-05, conv = false
(0) 13:45:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 37 | t 0.00036 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 37 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.600000e-04
 actual step time=3.700000e-04
 actual total time=3.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000782
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 9.861298e-07
 largest correction to disp= 1.651911e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000782
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 9.861298e-07
 largest correction to disp= 4.176046e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:46:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.01179e-08, limit = 1e-05, conv = true
(0) 13:46:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.362172, limit = 1e-05, conv = false
(0) 13:46:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 37 | t 0.00036 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 37 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.600000e-04
 actual step time=3.700000e-04
 actual total time=3.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000781
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 9.861298e-07
 largest correction to disp= 1.645122e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000781
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 9.861298e-07
 largest correction to disp= 4.205076e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:46:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.11856e-08, limit = 1e-05, conv = true
(0) 13:46:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00949415, limit = 1e-05, conv = false
(0) 13:46:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 37 | t 0.00036 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 37 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.600000e-04
 actual step time=3.700000e-04
 actual total time=3.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000782
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 9.861298e-07
 largest correction to disp= 1.667611e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000782
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 9.861298e-07
 largest correction to disp= 4.234453e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:47:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.66123e-09, limit = 1e-05, conv = true
(0) 13:47:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00527391, limit = 1e-05, conv = false
(0) 13:47:14 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 37 | t 0.00036 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 37 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.600000e-04
 actual step time=3.700000e-04
 actual total time=3.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000782
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 9.861298e-07
 largest correction to disp= 1.654847e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000782
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 9.861298e-07
 largest correction to disp= 4.219113e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:47:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.5786e-09, limit = 1e-05, conv = true
(0) 13:47:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00232929, limit = 1e-05, conv = false
(0) 13:47:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 37 | t 0.00036 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 37 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.600000e-04
 actual step time=3.700000e-04
 actual total time=3.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000782
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 9.861298e-07
 largest correction to disp= 1.657095e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000782
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 9.861298e-07
 largest correction to disp= 4.221312e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:48:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.06877e-10, limit = 1e-05, conv = true
(0) 13:48:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00042123, limit = 1e-05, conv = false
(0) 13:48:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 37 | t 0.00036 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 37 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.600000e-04
 actual step time=3.700000e-04
 actual total time=3.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000782
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 9.861298e-07
 largest correction to disp= 1.656807e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000782
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 9.861298e-07
 largest correction to disp= 4.220638e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:48:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.39068e-11, limit = 1e-05, conv = true
(0) 13:48:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000134903, limit = 1e-05, conv = false
(0) 13:48:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 37 | t 0.00036 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 37 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.600000e-04
 actual step time=3.700000e-04
 actual total time=3.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000782
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 9.861298e-07
 largest correction to disp= 1.656850e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000782
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 9.861298e-07
 largest correction to disp= 4.220735e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:49:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.38531e-11, limit = 1e-05, conv = true
(0) 13:49:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.7487e-05, limit = 1e-05, conv = false
(0) 13:49:14 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 37 | t 0.00036 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 37 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.600000e-04
 actual step time=3.700000e-04
 actual total time=3.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000782
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 9.861298e-07
 largest correction to disp= 1.656852e-08 in node 8906 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000782
 time avg. forc= 0.000330
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 9.861298e-07
 largest correction to disp= 4.220729e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:49:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.43735e-12, limit = 1e-05, conv = true
(0) 13:49:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.28626e-06, limit = 1e-05, conv = true
(0) 13:49:31 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 13:49:31 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 13:49:31 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 13:49:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 38 | t 0.00037 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 2.824875e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 2.824875e-05

 actual energy: 
 internal energy = 5.690001e-06
 kinetic energy = 2.254597e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 2.823597e-05

 energy increase = 2.823597e-05

 energy balance (absolute) = -1.277798e-08 
 energy balance (relative) = 0.045234 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 38 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=3.700000e-04
 actual step time=3.800000e-04
 actual total time=3.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000810
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 8.994107e-08 in node 9271 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000810
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 8.035723e-13 in node 9774 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:50:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.53765e-06, limit = 1e-05, conv = true
(0) 13:50:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.35781, limit = 1e-05, conv = false
(0) 13:50:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 38 | t 0.00037 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 38 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.700000e-04
 actual step time=3.800000e-04
 actual total time=3.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000806
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 1.686906e-08 in node 13085 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000806
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 3.396096e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:50:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.19249e-08, limit = 1e-05, conv = true
(0) 13:50:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.327819, limit = 1e-05, conv = false
(0) 13:50:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 38 | t 0.00037 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 38 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.700000e-04
 actual step time=3.800000e-04
 actual total time=3.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000808
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 1.626232e-08 in node 9262 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000808
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 3.328906e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:51:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.52233e-08, limit = 1e-05, conv = true
(0) 13:51:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0139773, limit = 1e-05, conv = false
(0) 13:51:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 38 | t 0.00037 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 38 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.700000e-04
 actual step time=3.800000e-04
 actual total time=3.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000807
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 1.626742e-08 in node 13085 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000807
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 3.344592e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:51:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.67637e-09, limit = 1e-05, conv = true
(0) 13:51:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00277674, limit = 1e-05, conv = false
(0) 13:51:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 38 | t 0.00037 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 38 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.700000e-04
 actual step time=3.800000e-04
 actual total time=3.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000807
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 1.626783e-08 in node 13085 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000807
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 30603 and dof 2
 largest increment of disp= 1.009751e-06
 largest correction to disp= 3.338152e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:52:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.65631e-09, limit = 1e-05, conv = true
(0) 13:52:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0013749, limit = 1e-05, conv = false
(0) 13:52:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 38 | t 0.00037 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 38 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.700000e-04
 actual step time=3.800000e-04
 actual total time=3.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000807
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 1.625415e-08 in node 13085 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000807
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 3.338396e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:52:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.29091e-10, limit = 1e-05, conv = true
(0) 13:52:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000245243, limit = 1e-05, conv = false
(0) 13:52:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 38 | t 0.00037 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 38 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.700000e-04
 actual step time=3.800000e-04
 actual total time=3.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000807
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 1.625863e-08 in node 13085 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000807
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 3.338921e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:53:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.19235e-10, limit = 1e-05, conv = true
(0) 13:53:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.32141e-05, limit = 1e-05, conv = false
(0) 13:53:17 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 38 | t 0.00037 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 38 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.700000e-04
 actual step time=3.800000e-04
 actual total time=3.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000807
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 1.625762e-08 in node 13085 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000807
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 3.338853e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:53:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.56449e-11, limit = 1e-05, conv = true
(0) 13:53:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.43793e-05, limit = 1e-05, conv = false
(0) 13:53:46 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 38 | t 0.00037 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 38 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.700000e-04
 actual step time=3.800000e-04
 actual total time=3.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000807
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 9271 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 1.625769e-08 in node 13085 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000807
 time avg. forc= 0.000343
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.009751e-06
 largest correction to disp= 3.338882e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:54:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.31509e-12, limit = 1e-05, conv = true
(0) 13:54:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.06066e-06, limit = 1e-05, conv = true
(0) 13:54:03 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 13:54:03 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 13:54:03 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 13:54:17 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 39 | t 0.00038 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 2.984578e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 2.984578e-05

 actual energy: 
 internal energy = 6.107152e-06
 kinetic energy = 2.372956e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 2.983671e-05

 energy increase = 2.983671e-05

 energy balance (absolute) = -9.071711e-09 
 energy balance (relative) = 0.030395 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 39 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=3.800000e-04
 actual step time=3.900000e-04
 actual total time=3.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000832
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 6956 and dof 2
 largest increment of disp= 1.026017e-06
 largest correction to disp= 8.151211e-08 in node 9492 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000832
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.026017e-06
 largest correction to disp= 2.972299e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:54:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.44879e-06, limit = 1e-05, conv = true
(0) 13:54:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.316612, limit = 1e-05, conv = false
(0) 13:54:47 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 39 | t 0.00038 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 39 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.800000e-04
 actual step time=3.900000e-04
 actual total time=3.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000840
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.026017e-06
 largest correction to disp= 1.494370e-08 in node 9506 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000840
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 1.026017e-06
 largest correction to disp= 3.594564e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:55:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.7946e-08, limit = 1e-05, conv = true
(0) 13:55:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.303443, limit = 1e-05, conv = false
(0) 13:55:18 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 39 | t 0.00038 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 39 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.800000e-04
 actual step time=3.900000e-04
 actual total time=3.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000839
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.026017e-06
 largest correction to disp= 1.540723e-08 in node 9506 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000839
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.026017e-06
 largest correction to disp= 3.680132e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:55:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.16618e-08, limit = 1e-05, conv = true
(0) 13:55:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0165618, limit = 1e-05, conv = false
(0) 13:55:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 39 | t 0.00038 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 39 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.800000e-04
 actual step time=3.900000e-04
 actual total time=3.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000839
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.026017e-06
 largest correction to disp= 1.561263e-08 in node 9506 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000839
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.026017e-06
 largest correction to disp= 3.705918e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:56:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.04087e-08, limit = 1e-05, conv = true
(0) 13:56:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00554484, limit = 1e-05, conv = false
(0) 13:56:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 39 | t 0.00038 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 39 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.800000e-04
 actual step time=3.900000e-04
 actual total time=3.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000839
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.026017e-06
 largest correction to disp= 1.545106e-08 in node 9506 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000839
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.026017e-06
 largest correction to disp= 3.689044e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:56:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.29848e-09, limit = 1e-05, conv = true
(0) 13:56:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00238479, limit = 1e-05, conv = false
(0) 13:56:49 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 39 | t 0.00038 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 39 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.800000e-04
 actual step time=3.900000e-04
 actual total time=3.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000839
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.026017e-06
 largest correction to disp= 1.546062e-08 in node 9506 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000839
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.026017e-06
 largest correction to disp= 3.692350e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:57:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.83497e-10, limit = 1e-05, conv = true
(0) 13:57:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00031076, limit = 1e-05, conv = false
(0) 13:57:20 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 39 | t 0.00038 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 39 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.800000e-04
 actual step time=3.900000e-04
 actual total time=3.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000839
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.026017e-06
 largest correction to disp= 1.546823e-08 in node 9506 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000839
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.026017e-06
 largest correction to disp= 3.692510e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:57:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.67966e-10, limit = 1e-05, conv = true
(0) 13:57:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.1537e-05, limit = 1e-05, conv = false
(0) 13:57:50 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 39 | t 0.00038 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 39 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.800000e-04
 actual step time=3.900000e-04
 actual total time=3.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000839
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.026017e-06
 largest correction to disp= 1.546631e-08 in node 9506 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000839
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 22798 and dof 2
 largest increment of disp= 1.026017e-06
 largest correction to disp= 3.692199e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:58:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.34627e-11, limit = 1e-05, conv = true
(0) 13:58:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.3157e-05, limit = 1e-05, conv = false
(0) 13:58:21 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 39 | t 0.00038 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 39 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.800000e-04
 actual step time=3.900000e-04
 actual total time=3.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000839
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.026017e-06
 largest correction to disp= 1.546673e-08 in node 9506 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000839
 time avg. forc= 0.000355
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 1.026017e-06
 largest correction to disp= 3.692228e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:58:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.17119e-11, limit = 1e-05, conv = true
(0) 13:58:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.25659e-06, limit = 1e-05, conv = true
(0) 13:58:37 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 13:58:38 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 13:58:38 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 13:58:52 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 40 | t 0.00039 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 3.150788e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 3.150788e-05

 actual energy: 
 internal energy = 6.548486e-06
 kinetic energy = 2.494698e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 3.149546e-05

 energy increase = 3.149546e-05

 energy balance (absolute) = -1.242047e-08 
 energy balance (relative) = 0.039420 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 40 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=3.900000e-04
 actual step time=4.000000e-04
 actual total time=4.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000858
 time avg. forc= 0.000368
 largest residual force= 0.000000 in node 9317 and dof 2
 largest increment of disp= 1.042308e-06
 largest correction to disp= 8.336969e-08 in node 9421 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000858
 time avg. forc= 0.000368
 largest residual force= 0.000000 in node 23287 and dof 1
 largest increment of disp= 1.042308e-06
 largest correction to disp= 7.498168e-13 in node 9317 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:59:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.40309e-06, limit = 1e-05, conv = true
(0) 13:59:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.304328, limit = 1e-05, conv = false
(0) 13:59:22 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 40 | t 0.00039 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 40 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.900000e-04
 actual step time=4.000000e-04
 actual total time=4.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000882
 time avg. forc= 0.000369
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.042308e-06
 largest correction to disp= 1.761008e-08 in node 13197 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000882
 time avg. forc= 0.000369
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.042308e-06
 largest correction to disp= 3.557338e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 13:59:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.0066e-08, limit = 1e-05, conv = true
(0) 13:59:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.31892, limit = 1e-05, conv = false
(0) 13:59:51 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 40 | t 0.00039 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 40 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.900000e-04
 actual step time=4.000000e-04
 actual total time=4.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000882
 time avg. forc= 0.000369
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.042308e-06
 largest correction to disp= 1.726657e-08 in node 13197 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000882
 time avg. forc= 0.000369
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.042308e-06
 largest correction to disp= 3.673125e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:00:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.24568e-08, limit = 1e-05, conv = true
(0) 14:00:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0105159, limit = 1e-05, conv = false
(0) 14:00:20 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 40 | t 0.00039 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 40 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.900000e-04
 actual step time=4.000000e-04
 actual total time=4.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000881
 time avg. forc= 0.000369
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.042308e-06
 largest correction to disp= 1.751271e-08 in node 13197 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000881
 time avg. forc= 0.000369
 largest residual force= 0.000000 in node 22798 and dof 2
 largest increment of disp= 1.042308e-06
 largest correction to disp= 3.616174e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:00:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.14198e-08, limit = 1e-05, conv = true
(0) 14:00:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00926899, limit = 1e-05, conv = false
(0) 14:00:50 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 40 | t 0.00039 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 40 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.900000e-04
 actual step time=4.000000e-04
 actual total time=4.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000881
 time avg. forc= 0.000369
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.042308e-06
 largest correction to disp= 1.752286e-08 in node 13197 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000881
 time avg. forc= 0.000369
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.042308e-06
 largest correction to disp= 3.616467e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:01:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.7957e-09, limit = 1e-05, conv = true
(0) 14:01:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00176568, limit = 1e-05, conv = false
(0) 14:01:20 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 40 | t 0.00039 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 40 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.900000e-04
 actual step time=4.000000e-04
 actual total time=4.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000881
 time avg. forc= 0.000369
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.042308e-06
 largest correction to disp= 1.751013e-08 in node 13197 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000881
 time avg. forc= 0.000369
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.042308e-06
 largest correction to disp= 3.619512e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:01:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.30988e-10, limit = 1e-05, conv = true
(0) 14:01:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000299307, limit = 1e-05, conv = false
(0) 14:01:49 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 40 | t 0.00039 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 40 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.900000e-04
 actual step time=4.000000e-04
 actual total time=4.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000881
 time avg. forc= 0.000369
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.042308e-06
 largest correction to disp= 1.751087e-08 in node 13197 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000881
 time avg. forc= 0.000369
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.042308e-06
 largest correction to disp= 3.619148e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:02:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.07815e-11, limit = 1e-05, conv = true
(0) 14:02:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.22114e-05, limit = 1e-05, conv = false
(0) 14:02:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 40 | t 0.00039 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 40 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.900000e-04
 actual step time=4.000000e-04
 actual total time=4.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000881
 time avg. forc= 0.000369
 largest residual force= 0.000458 in node 33406 and dof 1
 largest increment of disp= 1.042308e-06
 largest correction to disp= 1.751133e-08 in node 13197 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000881
 time avg. forc= 0.000369
 largest residual force= 0.000000 in node 26374 and dof 2
 largest increment of disp= 1.042308e-06
 largest correction to disp= 2.690281e-10 in node 33406 and dof 1

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:02:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.60738e-11, limit = 1e-05, conv = true
(0) 14:02:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.01981e-05, limit = 1e-05, conv = false
(0) 14:02:49 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 40 | t 0.00039 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 40 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=3.900000e-04
 actual step time=4.000000e-04
 actual total time=4.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000881
 time avg. forc= 0.000369
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.042308e-06
 largest correction to disp= 1.751104e-08 in node 13197 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000881
 time avg. forc= 0.000369
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.042308e-06
 largest correction to disp= 3.619256e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:03:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.8194e-12, limit = 1e-05, conv = true
(0) 14:03:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.59778e-06, limit = 1e-05, conv = true
(0) 14:03:05 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 14:03:05 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 14:03:05 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 14:03:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 41 | t 0.0004 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 3.323445e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 3.323445e-05

 actual energy: 
 internal energy = 7.017694e-06
 kinetic energy = 2.620663e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 3.322432e-05

 energy increase = 3.322432e-05

 energy balance (absolute) = -1.012385e-08 
 energy balance (relative) = 0.030462 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 41 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-04
 actual step time=4.100000e-04
 actual total time=4.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000893
 time avg. forc= 0.000381
 largest residual force= 0.000000 in node 9371 and dof 2
 largest increment of disp= 1.068335e-06
 largest correction to disp= 7.851144e-08 in node 9492 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000893
 time avg. forc= 0.000381
 largest residual force= 0.000000 in node 23303 and dof 1
 largest increment of disp= 1.068335e-06
 largest correction to disp= 6.109109e-13 in node 13213 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:03:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.33579e-06, limit = 1e-05, conv = true
(0) 14:03:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.347868, limit = 1e-05, conv = false
(0) 14:03:48 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 41 | t 0.0004 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 41 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-04
 actual step time=4.100000e-04
 actual total time=4.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.068335e-06
 largest correction to disp= 1.606682e-08 in node 13213 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.068335e-06
 largest correction to disp= 3.280567e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:04:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.37858e-08, limit = 1e-05, conv = true
(0) 14:04:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.377482, limit = 1e-05, conv = false
(0) 14:04:17 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 41 | t 0.0004 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 41 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-04
 actual step time=4.100000e-04
 actual total time=4.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.068335e-06
 largest correction to disp= 1.577673e-08 in node 13208 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.068335e-06
 largest correction to disp= 3.282396e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:04:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.71102e-08, limit = 1e-05, conv = true
(0) 14:04:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0114349, limit = 1e-05, conv = false
(0) 14:04:47 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 41 | t 0.0004 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 41 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-04
 actual step time=4.100000e-04
 actual total time=4.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.068335e-06
 largest correction to disp= 1.618877e-08 in node 13208 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.068335e-06
 largest correction to disp= 3.279587e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:05:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.08484e-09, limit = 1e-05, conv = true
(0) 14:05:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00445691, limit = 1e-05, conv = false
(0) 14:05:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 41 | t 0.0004 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 41 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-04
 actual step time=4.100000e-04
 actual total time=4.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.068335e-06
 largest correction to disp= 1.609292e-08 in node 13208 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 1.068335e-06
 largest correction to disp= 3.281265e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:05:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.81427e-09, limit = 1e-05, conv = true
(0) 14:05:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000874873, limit = 1e-05, conv = false
(0) 14:05:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 41 | t 0.0004 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 41 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-04
 actual step time=4.100000e-04
 actual total time=4.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.068335e-06
 largest correction to disp= 1.610369e-08 in node 13208 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.068335e-06
 largest correction to disp= 3.282343e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:06:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.3805e-10, limit = 1e-05, conv = true
(0) 14:06:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00038711, limit = 1e-05, conv = false
(0) 14:06:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 41 | t 0.0004 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 41 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-04
 actual step time=4.100000e-04
 actual total time=4.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.068335e-06
 largest correction to disp= 1.610590e-08 in node 13208 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.068335e-06
 largest correction to disp= 3.282104e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:06:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.22606e-10, limit = 1e-05, conv = true
(0) 14:06:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.89651e-05, limit = 1e-05, conv = false
(0) 14:06:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 41 | t 0.0004 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 41 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-04
 actual step time=4.100000e-04
 actual total time=4.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.068335e-06
 largest correction to disp= 1.610567e-08 in node 13208 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.068335e-06
 largest correction to disp= 3.282163e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:07:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.49932e-11, limit = 1e-05, conv = true
(0) 14:07:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.94856e-05, limit = 1e-05, conv = false
(0) 14:07:14 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 41 | t 0.0004 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 41 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.000000e-04
 actual step time=4.100000e-04
 actual total time=4.100000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.068335e-06
 largest correction to disp= 1.610570e-08 in node 13208 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000927
 time avg. forc= 0.000382
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.068335e-06
 largest correction to disp= 3.282168e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:07:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.66902e-12, limit = 1e-05, conv = true
(0) 14:07:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.60962e-06, limit = 1e-05, conv = true
(0) 14:07:31 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 14:07:31 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 14:07:31 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 14:07:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 42 | t 0.00041 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 3.501410e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 3.501410e-05

 actual energy: 
 internal energy = 7.509985e-06
 kinetic energy = 2.749030e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 3.500028e-05

 energy increase = 3.500028e-05

 energy balance (absolute) = -1.381467e-08 
 energy balance (relative) = 0.039455 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 42 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=4.100000e-04
 actual step time=4.200000e-04
 actual total time=4.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000934
 time avg. forc= 0.000395
 largest residual force= 0.000000 in node 9317 and dof 2
 largest increment of disp= 1.087421e-06
 largest correction to disp= 8.210578e-08 in node 9421 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000934
 time avg. forc= 0.000395
 largest residual force= 0.000000 in node 23285 and dof 2
 largest increment of disp= 1.087421e-06
 largest correction to disp= 1.076382e-12 in node 9551 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:08:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.23083e-06, limit = 1e-05, conv = true
(0) 14:08:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.417954, limit = 1e-05, conv = false
(0) 14:08:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 42 | t 0.00041 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 42 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.100000e-04
 actual step time=4.200000e-04
 actual total time=4.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000969
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.087421e-06
 largest correction to disp= 1.501679e-08 in node 11244 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000969
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.087421e-06
 largest correction to disp= 2.849158e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:08:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.8288e-08, limit = 1e-05, conv = true
(0) 14:08:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.436082, limit = 1e-05, conv = false
(0) 14:08:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 42 | t 0.00041 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 42 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.100000e-04
 actual step time=4.200000e-04
 actual total time=4.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000966
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.087421e-06
 largest correction to disp= 1.449343e-08 in node 11244 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000966
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.087421e-06
 largest correction to disp= 2.791330e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:09:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.48152e-08, limit = 1e-05, conv = true
(0) 14:09:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.012975, limit = 1e-05, conv = false
(0) 14:09:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 42 | t 0.00041 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 42 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.100000e-04
 actual step time=4.200000e-04
 actual total time=4.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000967
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.087421e-06
 largest correction to disp= 1.469313e-08 in node 11244 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000967
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 1.087421e-06
 largest correction to disp= 2.801030e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:09:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.8697e-09, limit = 1e-05, conv = true
(0) 14:09:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00410597, limit = 1e-05, conv = false
(0) 14:09:46 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 42 | t 0.00041 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 42 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.100000e-04
 actual step time=4.200000e-04
 actual total time=4.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000967
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.087421e-06
 largest correction to disp= 1.467713e-08 in node 11244 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000967
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.087421e-06
 largest correction to disp= 2.797811e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:10:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.83523e-09, limit = 1e-05, conv = true
(0) 14:10:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00179431, limit = 1e-05, conv = false
(0) 14:10:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 42 | t 0.00041 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 42 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.100000e-04
 actual step time=4.200000e-04
 actual total time=4.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000967
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.087421e-06
 largest correction to disp= 1.467575e-08 in node 11244 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000967
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 3908 and dof 2
 largest increment of disp= 1.087421e-06
 largest correction to disp= 2.797998e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:10:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.96509e-10, limit = 1e-05, conv = true
(0) 14:10:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00032881, limit = 1e-05, conv = false
(0) 14:10:46 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 42 | t 0.00041 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 42 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.100000e-04
 actual step time=4.200000e-04
 actual total time=4.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000967
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.087421e-06
 largest correction to disp= 1.467656e-08 in node 11244 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000967
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.087421e-06
 largest correction to disp= 2.798015e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:11:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.9613e-11, limit = 1e-05, conv = true
(0) 14:11:02 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.07995e-05, limit = 1e-05, conv = false
(0) 14:11:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 42 | t 0.00041 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 42 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.100000e-04
 actual step time=4.200000e-04
 actual total time=4.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000967
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.087421e-06
 largest correction to disp= 1.467648e-08 in node 11244 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000967
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.087421e-06
 largest correction to disp= 2.798113e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:11:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.58326e-11, limit = 1e-05, conv = true
(0) 14:11:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.27834e-05, limit = 1e-05, conv = false
(0) 14:11:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 42 | t 0.00041 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 42 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.100000e-04
 actual step time=4.200000e-04
 actual total time=4.200000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000967
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.087421e-06
 largest correction to disp= 1.467638e-08 in node 11244 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000967
 time avg. forc= 0.000396
 largest residual force= 0.000000 in node 31561 and dof 3
 largest increment of disp= 1.087421e-06
 largest correction to disp= 2.798076e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:12:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.93449e-12, limit = 1e-05, conv = true
(0) 14:12:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.41429e-06, limit = 1e-05, conv = true
(0) 14:12:01 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 14:12:01 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 14:12:01 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 14:12:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 43 | t 0.00042 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 3.683869e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 3.683869e-05

 actual energy: 
 internal energy = 8.015832e-06
 kinetic energy = 2.881186e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 3.682769e-05

 energy increase = 3.682769e-05

 energy balance (absolute) = -1.099421e-08 
 energy balance (relative) = 0.029844 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 43 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=4.200000e-04
 actual step time=4.300000e-04
 actual total time=4.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000972
 time avg. forc= 0.000409
 largest residual force= 0.000000 in node 9371 and dof 2
 largest increment of disp= 1.094970e-06
 largest correction to disp= 7.478799e-08 in node 9431 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000972
 time avg. forc= 0.000409
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.094970e-06
 largest correction to disp= 1.016607e-12 in node 13066 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:12:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.11791e-06, limit = 1e-05, conv = true
(0) 14:12:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.445633, limit = 1e-05, conv = false
(0) 14:12:46 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 43 | t 0.00042 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 43 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.200000e-04
 actual step time=4.300000e-04
 actual total time=4.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000992
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.094970e-06
 largest correction to disp= 1.475130e-08 in node 10919 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000992
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.094970e-06
 largest correction to disp= 3.571862e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:13:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.52479e-08, limit = 1e-05, conv = true
(0) 14:13:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.421325, limit = 1e-05, conv = false
(0) 14:13:16 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 43 | t 0.00042 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 43 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.200000e-04
 actual step time=4.300000e-04
 actual total time=4.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000996
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.094970e-06
 largest correction to disp= 1.508651e-08 in node 13066 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000996
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 14969 and dof 3
 largest increment of disp= 1.094970e-06
 largest correction to disp= 3.425776e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:13:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.39384e-08, limit = 1e-05, conv = true
(0) 14:13:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0226382, limit = 1e-05, conv = false
(0) 14:13:46 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 43 | t 0.00042 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 43 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.200000e-04
 actual step time=4.300000e-04
 actual total time=4.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000995
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.094970e-06
 largest correction to disp= 1.490069e-08 in node 13066 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000995
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.094970e-06
 largest correction to disp= 3.458909e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:14:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.53169e-09, limit = 1e-05, conv = true
(0) 14:14:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00557023, limit = 1e-05, conv = false
(0) 14:14:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 43 | t 0.00042 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 43 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.200000e-04
 actual step time=4.300000e-04
 actual total time=4.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000995
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.094970e-06
 largest correction to disp= 1.495498e-08 in node 13066 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000995
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.094970e-06
 largest correction to disp= 3.456977e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:14:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.13186e-09, limit = 1e-05, conv = true
(0) 14:14:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000716929, limit = 1e-05, conv = false
(0) 14:14:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 43 | t 0.00042 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 43 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.200000e-04
 actual step time=4.300000e-04
 actual total time=4.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000995
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.094970e-06
 largest correction to disp= 1.494806e-08 in node 13066 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000995
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.094970e-06
 largest correction to disp= 3.457363e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:15:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.89276e-10, limit = 1e-05, conv = true
(0) 14:15:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000175507, limit = 1e-05, conv = false
(0) 14:15:14 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 43 | t 0.00042 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 43 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.200000e-04
 actual step time=4.300000e-04
 actual total time=4.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000995
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.094970e-06
 largest correction to disp= 1.494896e-08 in node 13066 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000995
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.094970e-06
 largest correction to disp= 3.457189e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:15:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.18751e-10, limit = 1e-05, conv = true
(0) 14:15:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.14048e-05, limit = 1e-05, conv = false
(0) 14:15:44 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 43 | t 0.00042 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 43 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.200000e-04
 actual step time=4.300000e-04
 actual total time=4.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000995
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.094970e-06
 largest correction to disp= 1.494875e-08 in node 13066 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000995
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 22798 and dof 2
 largest increment of disp= 1.094970e-06
 largest correction to disp= 3.457294e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:16:00 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.42101e-11, limit = 1e-05, conv = true
(0) 14:16:00 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.70392e-05, limit = 1e-05, conv = false
(0) 14:16:14 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 43 | t 0.00042 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 43 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.200000e-04
 actual step time=4.300000e-04
 actual total time=4.300000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000995
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.094970e-06
 largest correction to disp= 1.494881e-08 in node 13066 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.000995
 time avg. forc= 0.000410
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.094970e-06
 largest correction to disp= 3.457268e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:16:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.64217e-12, limit = 1e-05, conv = true
(0) 14:16:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.24704e-06, limit = 1e-05, conv = true
(0) 14:16:31 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 14:16:31 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 14:16:31 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 14:16:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 44 | t 0.00043 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 3.870239e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 3.870239e-05

 actual energy: 
 internal energy = 8.529548e-06
 kinetic energy = 3.015788e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 3.868743e-05

 energy increase = 3.868743e-05

 energy balance (absolute) = -1.495843e-08 
 energy balance (relative) = 0.038650 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 44 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=4.300000e-04
 actual step time=4.400000e-04
 actual total time=4.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001003
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 9317 and dof 2
 largest increment of disp= 1.092730e-06
 largest correction to disp= 7.659594e-08 in node 9461 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001003
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 1.092730e-06
 largest correction to disp= 8.594464e-13 in node 9317 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:17:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.02173e-06, limit = 1e-05, conv = true
(0) 14:17:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.418168, limit = 1e-05, conv = false
(0) 14:17:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 44 | t 0.00043 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 44 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.300000e-04
 actual step time=4.400000e-04
 actual total time=4.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001017
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.092730e-06
 largest correction to disp= 1.470432e-08 in node 11008 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001017
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.092730e-06
 largest correction to disp= 2.720448e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:17:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.78915e-08, limit = 1e-05, conv = true
(0) 14:17:31 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.375499, limit = 1e-05, conv = false
(0) 14:17:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 44 | t 0.00043 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 44 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.300000e-04
 actual step time=4.400000e-04
 actual total time=4.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001019
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.092730e-06
 largest correction to disp= 1.509578e-08 in node 11008 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001019
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 22821 and dof 2
 largest increment of disp= 1.092730e-06
 largest correction to disp= 2.748581e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:18:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.9851e-08, limit = 1e-05, conv = true
(0) 14:18:01 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0162487, limit = 1e-05, conv = false
(0) 14:18:15 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 44 | t 0.00043 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 44 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.300000e-04
 actual step time=4.400000e-04
 actual total time=4.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001018
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.092730e-06
 largest correction to disp= 1.515798e-08 in node 11008 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001018
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.092730e-06
 largest correction to disp= 2.721405e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:18:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.94859e-09, limit = 1e-05, conv = true
(0) 14:18:32 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0081873, limit = 1e-05, conv = false
(0) 14:18:45 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 44 | t 0.00043 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 44 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.300000e-04
 actual step time=4.400000e-04
 actual total time=4.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001018
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.092730e-06
 largest correction to disp= 1.513032e-08 in node 11008 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001018
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.092730e-06
 largest correction to disp= 2.723447e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:19:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.75457e-09, limit = 1e-05, conv = true
(0) 14:19:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00113529, limit = 1e-05, conv = false
(0) 14:19:17 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 44 | t 0.00043 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 44 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.300000e-04
 actual step time=4.400000e-04
 actual total time=4.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001018
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.092730e-06
 largest correction to disp= 1.512224e-08 in node 11008 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001018
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.092730e-06
 largest correction to disp= 2.725201e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:19:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.3819e-10, limit = 1e-05, conv = true
(0) 14:19:33 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000281823, limit = 1e-05, conv = false
(0) 14:19:46 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 44 | t 0.00043 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 44 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.300000e-04
 actual step time=4.400000e-04
 actual total time=4.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001018
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.092730e-06
 largest correction to disp= 1.512615e-08 in node 11008 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001018
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 1.092730e-06
 largest correction to disp= 2.725338e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:20:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.08794e-10, limit = 1e-05, conv = true
(0) 14:20:03 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.63716e-05, limit = 1e-05, conv = false
(0) 14:20:17 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 44 | t 0.00043 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 44 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.300000e-04
 actual step time=4.400000e-04
 actual total time=4.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001018
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.092730e-06
 largest correction to disp= 1.512526e-08 in node 11008 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001018
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.092730e-06
 largest correction to disp= 2.725194e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:20:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.14982e-11, limit = 1e-05, conv = true
(0) 14:20:34 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.22805e-05, limit = 1e-05, conv = false
(0) 14:20:47 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 44 | t 0.00043 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 44 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.300000e-04
 actual step time=4.400000e-04
 actual total time=4.400000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001018
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.092730e-06
 largest correction to disp= 1.512530e-08 in node 11008 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001018
 time avg. forc= 0.000424
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.092730e-06
 largest correction to disp= 2.725231e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:21:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.0422e-12, limit = 1e-05, conv = true
(0) 14:21:04 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.39282e-06, limit = 1e-05, conv = true
(0) 14:21:04 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 14:21:04 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 14:21:04 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 14:21:18 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 45 | t 0.00044 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 4.060011e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 4.060011e-05

 actual energy: 
 internal energy = 9.056842e-06
 kinetic energy = 3.153077e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 4.058762e-05

 energy increase = 4.058762e-05

 energy balance (absolute) = -1.249784e-08 
 energy balance (relative) = 0.030783 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 45 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=4.400000e-04
 actual step time=4.500000e-04
 actual total time=4.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001030
 time avg. forc= 0.000437
 largest residual force= 0.000000 in node 13059 and dof 2
 largest increment of disp= 1.098389e-06
 largest correction to disp= 6.930760e-08 in node 37892 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001030
 time avg. forc= 0.000437
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 1.098389e-06
 largest correction to disp= 3.153139e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:21:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.96577e-06, limit = 1e-05, conv = true
(0) 14:21:35 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.342283, limit = 1e-05, conv = false
(0) 14:21:49 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 45 | t 0.00044 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 45 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.400000e-04
 actual step time=4.500000e-04
 actual total time=4.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.098389e-06
 largest correction to disp= 1.669271e-08 in node 11015 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.098389e-06
 largest correction to disp= 2.696410e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:22:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.56959e-08, limit = 1e-05, conv = true
(0) 14:22:05 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.312503, limit = 1e-05, conv = false
(0) 14:22:19 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 45 | t 0.00044 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 45 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.400000e-04
 actual step time=4.500000e-04
 actual total time=4.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001047
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.098389e-06
 largest correction to disp= 1.736823e-08 in node 11044 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001047
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.098389e-06
 largest correction to disp= 2.665063e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:22:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.12151e-08, limit = 1e-05, conv = true
(0) 14:22:36 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0076703, limit = 1e-05, conv = false
(0) 14:22:50 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 45 | t 0.00044 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 45 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.400000e-04
 actual step time=4.500000e-04
 actual total time=4.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.098389e-06
 largest correction to disp= 1.705615e-08 in node 11044 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.098389e-06
 largest correction to disp= 2.651375e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:23:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.55389e-09, limit = 1e-05, conv = true
(0) 14:23:06 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00436476, limit = 1e-05, conv = false
(0) 14:23:20 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 45 | t 0.00044 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 45 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.400000e-04
 actual step time=4.500000e-04
 actual total time=4.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.098389e-06
 largest correction to disp= 1.714633e-08 in node 11044 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.098389e-06
 largest correction to disp= 2.659299e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:23:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.01818e-09, limit = 1e-05, conv = true
(0) 14:23:37 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00163427, limit = 1e-05, conv = false
(0) 14:23:51 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 45 | t 0.00044 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 45 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.400000e-04
 actual step time=4.500000e-04
 actual total time=4.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.098389e-06
 largest correction to disp= 1.713766e-08 in node 11044 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.098389e-06
 largest correction to disp= 2.656747e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:24:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.17248e-10, limit = 1e-05, conv = true
(0) 14:24:07 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000471826, limit = 1e-05, conv = false
(0) 14:24:21 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 45 | t 0.00044 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 45 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.400000e-04
 actual step time=4.500000e-04
 actual total time=4.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.098389e-06
 largest correction to disp= 1.714048e-08 in node 11044 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.098389e-06
 largest correction to disp= 2.657375e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:24:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.11716e-10, limit = 1e-05, conv = true
(0) 14:24:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00011954, limit = 1e-05, conv = false
(0) 14:24:52 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 45 | t 0.00044 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 45 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.400000e-04
 actual step time=4.500000e-04
 actual total time=4.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.098389e-06
 largest correction to disp= 1.713916e-08 in node 11044 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.098389e-06
 largest correction to disp= 2.657234e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:25:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.3695e-11, limit = 1e-05, conv = true
(0) 14:25:08 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.44314e-05, limit = 1e-05, conv = false
(0) 14:25:22 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 45 | t 0.00044 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 45 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.400000e-04
 actual step time=4.500000e-04
 actual total time=4.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.098389e-06
 largest correction to disp= 1.713959e-08 in node 11044 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 22798 and dof 2
 largest increment of disp= 1.098389e-06
 largest correction to disp= 2.657304e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:25:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.95313e-12, limit = 1e-05, conv = true
(0) 14:25:38 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.12328e-05, limit = 1e-05, conv = false
(0) 14:25:52 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 45 | t 0.00044 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 45 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.400000e-04
 actual step time=4.500000e-04
 actual total time=4.500000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.098389e-06
 largest correction to disp= 1.713955e-08 in node 11044 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001046
 time avg. forc= 0.000438
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.098389e-06
 largest correction to disp= 2.657297e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:26:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.52191e-12, limit = 1e-05, conv = true
(0) 14:26:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.14663e-06, limit = 1e-05, conv = true
(0) 14:26:09 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 14:26:09 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 14:26:09 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 14:26:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 46 | t 0.00045 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 4.255100e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 4.255100e-05

 actual energy: 
 internal energy = 9.610687e-06
 kinetic energy = 3.292466e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 4.253535e-05

 energy increase = 4.253535e-05

 energy balance (absolute) = -1.565728e-08 
 energy balance (relative) = 0.036796 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 46 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=4.500000e-04
 actual step time=4.600000e-04
 actual total time=4.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001062
 time avg. forc= 0.000451
 largest residual force= 0.000000 in node 9808 and dof 2
 largest increment of disp= 1.109309e-06
 largest correction to disp= 7.190684e-08 in node 9461 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001062
 time avg. forc= 0.000451
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.109309e-06
 largest correction to disp= 5.283612e-13 in node 9808 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:26:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.93833e-06, limit = 1e-05, conv = true
(0) 14:26:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.302766, limit = 1e-05, conv = false
(0) 14:26:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 46 | t 0.00045 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 46 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.500000e-04
 actual step time=4.600000e-04
 actual total time=4.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001089
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.109309e-06
 largest correction to disp= 1.875963e-08 in node 11029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001089
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.109309e-06
 largest correction to disp= 2.461373e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:27:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.76133e-08, limit = 1e-05, conv = true
(0) 14:27:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.32381, limit = 1e-05, conv = false
(0) 14:27:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 46 | t 0.00045 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 46 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.500000e-04
 actual step time=4.600000e-04
 actual total time=4.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001085
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.109309e-06
 largest correction to disp= 1.837990e-08 in node 11029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001085
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.109309e-06
 largest correction to disp= 2.644326e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:27:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.89962e-08, limit = 1e-05, conv = true
(0) 14:27:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0338666, limit = 1e-05, conv = false
(0) 14:27:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 46 | t 0.00045 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 46 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.500000e-04
 actual step time=4.600000e-04
 actual total time=4.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001086
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.109309e-06
 largest correction to disp= 1.844729e-08 in node 11029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001086
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.109309e-06
 largest correction to disp= 2.610865e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:28:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.25485e-09, limit = 1e-05, conv = true
(0) 14:28:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00529537, limit = 1e-05, conv = false
(0) 14:28:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 46 | t 0.00045 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 46 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.500000e-04
 actual step time=4.600000e-04
 actual total time=4.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001086
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.109309e-06
 largest correction to disp= 1.841885e-08 in node 11029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001086
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.109309e-06
 largest correction to disp= 2.614806e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:28:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.33998e-09, limit = 1e-05, conv = true
(0) 14:28:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00101286, limit = 1e-05, conv = false
(0) 14:28:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 46 | t 0.00045 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 46 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.500000e-04
 actual step time=4.600000e-04
 actual total time=4.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001086
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.109309e-06
 largest correction to disp= 1.842402e-08 in node 11029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001086
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 1.109309e-06
 largest correction to disp= 2.614565e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:29:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.71738e-10, limit = 1e-05, conv = true
(0) 14:29:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000132317, limit = 1e-05, conv = false
(0) 14:29:25 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 46 | t 0.00045 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 46 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.500000e-04
 actual step time=4.600000e-04
 actual total time=4.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001086
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.109309e-06
 largest correction to disp= 1.842694e-08 in node 11029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001086
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.109309e-06
 largest correction to disp= 2.614800e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:29:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.39602e-10, limit = 1e-05, conv = true
(0) 14:29:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.70606e-05, limit = 1e-05, conv = false
(0) 14:29:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 46 | t 0.00045 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 46 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.500000e-04
 actual step time=4.600000e-04
 actual total time=4.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001086
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.109309e-06
 largest correction to disp= 1.842647e-08 in node 11029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001086
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.109309e-06
 largest correction to disp= 2.614568e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:30:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.48826e-11, limit = 1e-05, conv = true
(0) 14:30:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.78264e-05, limit = 1e-05, conv = false
(0) 14:30:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 46 | t 0.00045 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 46 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.500000e-04
 actual step time=4.600000e-04
 actual total time=4.600000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001086
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.109309e-06
 largest correction to disp= 1.842656e-08 in node 11029 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001086
 time avg. forc= 0.000452
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.109309e-06
 largest correction to disp= 2.614590e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:30:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.55213e-12, limit = 1e-05, conv = true
(0) 14:30:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.11889e-06, limit = 1e-05, conv = true
(0) 14:30:41 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 14:30:41 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 14:30:41 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 14:30:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 47 | t 0.00046 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 4.455645e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 4.455645e-05

 actual energy: 
 internal energy = 1.019757e-05
 kinetic energy = 3.434543e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 4.454300e-05

 energy increase = 4.454300e-05

 energy balance (absolute) = -1.344684e-08 
 energy balance (relative) = 0.030179 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 47 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=4.600000e-04
 actual step time=4.700000e-04
 actual total time=4.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001104
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 35300 and dof 3
 largest increment of disp= 1.121252e-06
 largest correction to disp= 7.107076e-08 in node 9858 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001104
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 1.121252e-06
 largest correction to disp= 9.737085e-13 in node 13213 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:31:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.90438e-06, limit = 1e-05, conv = true
(0) 14:31:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.356254, limit = 1e-05, conv = false
(0) 14:31:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 47 | t 0.00046 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 47 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.600000e-04
 actual step time=4.700000e-04
 actual total time=4.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.121252e-06
 largest correction to disp= 1.503402e-08 in node 13084 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 22798 and dof 2
 largest increment of disp= 1.121252e-06
 largest correction to disp= 2.273103e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:31:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.40018e-08, limit = 1e-05, conv = true
(0) 14:31:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.393065, limit = 1e-05, conv = false
(0) 14:31:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 47 | t 0.00046 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 47 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.600000e-04
 actual step time=4.700000e-04
 actual total time=4.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000724 in node 32303 and dof 2
 largest increment of disp= 1.121252e-06
 largest correction to disp= 1.592387e-08 in node 13084 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 2267 and dof 2
 largest increment of disp= 1.121252e-06
 largest correction to disp= 4.188573e-10 in node 2267 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:32:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.07211e-08, limit = 1e-05, conv = true
(0) 14:32:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0128164, limit = 1e-05, conv = false
(0) 14:32:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 47 | t 0.00046 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 47 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.600000e-04
 actual step time=4.700000e-04
 actual total time=4.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.121252e-06
 largest correction to disp= 1.577205e-08 in node 13084 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.121252e-06
 largest correction to disp= 2.303802e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:32:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.05613e-09, limit = 1e-05, conv = true
(0) 14:32:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00473885, limit = 1e-05, conv = false
(0) 14:32:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 47 | t 0.00046 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 47 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.600000e-04
 actual step time=4.700000e-04
 actual total time=4.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.121252e-06
 largest correction to disp= 1.578352e-08 in node 13084 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 22820 and dof 2
 largest increment of disp= 1.121252e-06
 largest correction to disp= 2.307693e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:33:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.34745e-09, limit = 1e-05, conv = true
(0) 14:33:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000802956, limit = 1e-05, conv = false
(0) 14:33:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 47 | t 0.00046 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 47 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.600000e-04
 actual step time=4.700000e-04
 actual total time=4.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.121252e-06
 largest correction to disp= 1.578149e-08 in node 13084 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 1.121252e-06
 largest correction to disp= 2.308252e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:33:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.36798e-10, limit = 1e-05, conv = true
(0) 14:33:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000137201, limit = 1e-05, conv = false
(0) 14:33:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 47 | t 0.00046 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 47 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.600000e-04
 actual step time=4.700000e-04
 actual total time=4.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.121252e-06
 largest correction to disp= 1.578138e-08 in node 13084 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.121252e-06
 largest correction to disp= 2.307880e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:34:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.48465e-10, limit = 1e-05, conv = true
(0) 14:34:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.40092e-05, limit = 1e-05, conv = false
(0) 14:34:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 47 | t 0.00046 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 47 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.600000e-04
 actual step time=4.700000e-04
 actual total time=4.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.121252e-06
 largest correction to disp= 1.578076e-08 in node 13084 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.121252e-06
 largest correction to disp= 2.307831e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:34:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.38709e-11, limit = 1e-05, conv = true
(0) 14:34:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.85473e-05, limit = 1e-05, conv = false
(0) 14:34:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 47 | t 0.00046 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 47 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.600000e-04
 actual step time=4.700000e-04
 actual total time=4.700000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.121252e-06
 largest correction to disp= 1.578065e-08 in node 13084 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001130
 time avg. forc= 0.000466
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.121252e-06
 largest correction to disp= 2.307855e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:35:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.77629e-12, limit = 1e-05, conv = true
(0) 14:35:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.45755e-06, limit = 1e-05, conv = true
(0) 14:35:09 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 14:35:09 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 14:35:09 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 14:35:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 48 | t 0.00047 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 4.661904e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 4.661904e-05

 actual energy: 
 internal energy = 1.081099e-05
 kinetic energy = 3.579204e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 4.660303e-05

 energy increase = 4.660303e-05

 energy balance (absolute) = -1.600878e-08 
 energy balance (relative) = 0.034340 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 48 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=4.700000e-04
 actual step time=4.800000e-04
 actual total time=4.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001151
 time avg. forc= 0.000480
 largest residual force= 0.000000 in node 9808 and dof 2
 largest increment of disp= 1.129491e-06
 largest correction to disp= 7.270545e-08 in node 9858 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001151
 time avg. forc= 0.000480
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.129491e-06
 largest correction to disp= 1.314685e-12 in node 13244 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:35:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.87834e-06, limit = 1e-05, conv = true
(0) 14:35:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.443252, limit = 1e-05, conv = false
(0) 14:35:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 48 | t 0.00047 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 48 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.700000e-04
 actual step time=4.800000e-04
 actual total time=4.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001168
 time avg. forc= 0.000481
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.129491e-06
 largest correction to disp= 1.763081e-08 in node 13086 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001168
 time avg. forc= 0.000481
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.129491e-06
 largest correction to disp= 2.105805e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:36:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.77012e-08, limit = 1e-05, conv = true
(0) 14:36:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.455699, limit = 1e-05, conv = false
(0) 14:36:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 48 | t 0.00047 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 48 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.700000e-04
 actual step time=4.800000e-04
 actual total time=4.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001168
 time avg. forc= 0.000481
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.129491e-06
 largest correction to disp= 1.806491e-08 in node 13086 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001168
 time avg. forc= 0.000481
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.129491e-06
 largest correction to disp= 2.117985e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:36:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.16572e-08, limit = 1e-05, conv = true
(0) 14:36:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.0087272, limit = 1e-05, conv = false
(0) 14:36:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 48 | t 0.00047 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 48 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.700000e-04
 actual step time=4.800000e-04
 actual total time=4.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001169
 time avg. forc= 0.000481
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.129491e-06
 largest correction to disp= 1.796193e-08 in node 13086 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001169
 time avg. forc= 0.000481
 largest residual force= 0.000000 in node 23287 and dof 1
 largest increment of disp= 1.129491e-06
 largest correction to disp= 2.096452e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:37:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.64934e-09, limit = 1e-05, conv = true
(0) 14:37:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00524818, limit = 1e-05, conv = false
(0) 14:37:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 48 | t 0.00047 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 48 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.700000e-04
 actual step time=4.800000e-04
 actual total time=4.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001168
 time avg. forc= 0.000481
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.129491e-06
 largest correction to disp= 1.797902e-08 in node 13086 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001168
 time avg. forc= 0.000481
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.129491e-06
 largest correction to disp= 2.101938e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:37:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.24332e-09, limit = 1e-05, conv = true
(0) 14:37:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00192901, limit = 1e-05, conv = false
(0) 14:37:52 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 48 | t 0.00047 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 48 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.700000e-04
 actual step time=4.800000e-04
 actual total time=4.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001168
 time avg. forc= 0.000481
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.129491e-06
 largest correction to disp= 1.798896e-08 in node 13086 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001168
 time avg. forc= 0.000481
 largest residual force= 0.000000 in node 23302 and dof 1
 largest increment of disp= 1.129491e-06
 largest correction to disp= 2.102502e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:38:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.88585e-10, limit = 1e-05, conv = true
(0) 14:38:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000172076, limit = 1e-05, conv = false
(0) 14:38:22 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 48 | t 0.00047 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 48 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.700000e-04
 actual step time=4.800000e-04
 actual total time=4.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001168
 time avg. forc= 0.000481
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.129491e-06
 largest correction to disp= 1.798632e-08 in node 13086 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001168
 time avg. forc= 0.000481
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.129491e-06
 largest correction to disp= 2.102504e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:38:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 8.62385e-11, limit = 1e-05, conv = true
(0) 14:38:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.32014e-05, limit = 1e-05, conv = false
(0) 14:38:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 48 | t 0.00047 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 48 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.700000e-04
 actual step time=4.800000e-04
 actual total time=4.800000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001168
 time avg. forc= 0.000481
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.129491e-06
 largest correction to disp= 1.798673e-08 in node 13086 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001168
 time avg. forc= 0.000481
 largest residual force= 0.000000 in node 22810 and dof 2
 largest increment of disp= 1.129491e-06
 largest correction to disp= 2.102524e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:39:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.88509e-11, limit = 1e-05, conv = true
(0) 14:39:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.91768e-06, limit = 1e-05, conv = true
(0) 14:39:11 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 14:39:11 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 14:39:11 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 14:39:25 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 49 | t 0.00048 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 4.873356e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 4.873356e-05

 actual energy: 
 internal energy = 1.143817e-05
 kinetic energy = 3.728157e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 4.871974e-05

 energy increase = 4.871974e-05

 energy balance (absolute) = -1.382100e-08 
 energy balance (relative) = 0.028360 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 49 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=4.800000e-04
 actual step time=4.900000e-04
 actual total time=4.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001192
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 12036 and dof 2
 largest increment of disp= 1.139262e-06
 largest correction to disp= 6.984831e-08 in node 9894 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001192
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.164272e-12 in node 13247 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:39:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.84219e-06, limit = 1e-05, conv = true
(0) 14:39:42 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.473792, limit = 1e-05, conv = false
(0) 14:39:55 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 49 | t 0.00048 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 49 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.800000e-04
 actual step time=4.900000e-04
 actual total time=4.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.599154e-08 in node 13116 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 22798 and dof 2
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.821337e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:40:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.81825e-08, limit = 1e-05, conv = true
(0) 14:40:12 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.447805, limit = 1e-05, conv = false
(0) 14:40:25 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 49 | t 0.00048 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 49 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.800000e-04
 actual step time=4.900000e-04
 actual total time=4.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.637017e-08 in node 13116 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 22821 and dof 2
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.833388e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:40:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.75416e-08, limit = 1e-05, conv = true
(0) 14:40:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00734271, limit = 1e-05, conv = false
(0) 14:40:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 49 | t 0.00048 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 49 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.800000e-04
 actual step time=4.900000e-04
 actual total time=4.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.640074e-08 in node 13116 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 22798 and dof 1
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.835642e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:41:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 9.96906e-09, limit = 1e-05, conv = true
(0) 14:41:11 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00300072, limit = 1e-05, conv = false
(0) 14:41:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 49 | t 0.00048 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 49 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.800000e-04
 actual step time=4.900000e-04
 actual total time=4.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.637104e-08 in node 13116 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.838160e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:41:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.70078e-09, limit = 1e-05, conv = true
(0) 14:41:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00160087, limit = 1e-05, conv = false
(0) 14:41:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 6 of 50 | dt# 49 | t 0.00048 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 49 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.800000e-04
 actual step time=4.900000e-04
 actual total time=4.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.636539e-08 in node 13116 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.837862e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:42:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 4.22057e-10, limit = 1e-05, conv = true
(0) 14:42:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.000277873, limit = 1e-05, conv = false
(0) 14:42:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 7 of 50 | dt# 49 | t 0.00048 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 49 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.800000e-04
 actual step time=4.900000e-04
 actual total time=4.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.636884e-08 in node 13116 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.837773e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:42:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.04419e-10, limit = 1e-05, conv = true
(0) 14:42:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.42299e-05, limit = 1e-05, conv = false
(0) 14:42:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 8 of 50 | dt# 49 | t 0.00048 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 49 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.800000e-04
 actual step time=4.900000e-04
 actual total time=4.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.636838e-08 in node 13116 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.837750e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:43:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.85408e-11, limit = 1e-05, conv = true
(0) 14:43:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.0843e-05, limit = 1e-05, conv = false
(0) 14:43:22 [impl::SolverInterfaceImpl]:390 in advance: [0mit 9 of 50 | dt# 49 | t 0.00048 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 49 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.800000e-04
 actual step time=4.900000e-04
 actual total time=4.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.636809e-08 in node 13116 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.837698e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:43:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 7.34824e-12, limit = 1e-05, conv = true
(0) 14:43:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.39133e-05, limit = 1e-05, conv = false
(0) 14:43:52 [impl::SolverInterfaceImpl]:390 in advance: [0mit 10 of 50 | dt# 49 | t 0.00048 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 49 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.800000e-04
 actual step time=4.900000e-04
 actual total time=4.900000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 38245 and dof 2
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.636811e-08 in node 13116 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001197
 time avg. forc= 0.000495
 largest residual force= 0.000000 in node 22820 and dof 1
 largest increment of disp= 1.139262e-06
 largest correction to disp= 1.837707e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:44:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.01032e-12, limit = 1e-05, conv = true
(0) 14:44:09 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.44888e-06, limit = 1e-05, conv = true
(0) 14:44:09 [cplscheme::BaseCouplingScheme]:677 in measureConvergence: [0mAll converged
(0) 14:44:09 [cplscheme::BaseCouplingScheme]:855 in timestepCompleted: [0mTimestep completed
(0) 14:44:09 [cplscheme::BaseCouplingScheme]:331 in extrapolateData: [0mPerforming second order extrapolation
(0) 14:44:22 [impl::SolverInterfaceImpl]:390 in advance: [0mit 1 of 50 | dt# 50 | t 0.00049 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete yes | write-iteration-checkpoint | 
 initial energy (at start of step) = 2.211957e-40

 since start of the step: 
 external work = 5.089568e-05
 work performed by the damping forces = 0.000000e+00
 netto work = 5.089568e-05

 actual energy: 
 internal energy = 1.207247e-05
 kinetic energy = 3.880636e-05
 elastic contact energy = 0.000000e+00
 energy lost due to friction = 0.000000e+00
 total energy  = 5.087883e-05

 energy increase = 5.087883e-05

 energy balance (absolute) = -1.685365e-08 
 energy balance (relative) = 0.033114 % 

Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
Adapter writing checkpoint...
 increment 50 attempt 1 
 increment size= 1.000000e-05
 sum of previous increments=4.900000e-04
 actual step time=5.000000e-04
 actual total time=5.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001220
 time avg. forc= 0.000510
 largest residual force= 0.001481 in node 30381 and dof 2
 largest increment of disp= 1.149858e-06
 largest correction to disp= 6.747006e-08 in node 9894 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001220
 time avg. forc= 0.000510
 largest residual force= 0.000000 in node 16152 and dof 2
 largest increment of disp= 1.149858e-06
 largest correction to disp= 1.479532e-09 in node 16152 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:44:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 3.78122e-06, limit = 1e-05, conv = true
(0) 14:44:39 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.423943, limit = 1e-05, conv = false
(0) 14:44:53 [impl::SolverInterfaceImpl]:390 in advance: [0mit 2 of 50 | dt# 50 | t 0.00049 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 50 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.900000e-04
 actual step time=5.000000e-04
 actual total time=5.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001223
 time avg. forc= 0.000510
 largest residual force= 0.000000 in node 8765 and dof 2
 largest increment of disp= 1.149858e-06
 largest correction to disp= 1.512958e-08 in node 13112 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001223
 time avg. forc= 0.000510
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.149858e-06
 largest correction to disp= 1.635852e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:45:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 6.07758e-08, limit = 1e-05, conv = true
(0) 14:45:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.373981, limit = 1e-05, conv = false
(0) 14:45:23 [impl::SolverInterfaceImpl]:390 in advance: [0mit 3 of 50 | dt# 50 | t 0.00049 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 50 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.900000e-04
 actual step time=5.000000e-04
 actual total time=5.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001223
 time avg. forc= 0.000510
 largest residual force= 0.000000 in node 16740 and dof 1
 largest increment of disp= 1.149858e-06
 largest correction to disp= 1.472033e-08 in node 13112 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001223
 time avg. forc= 0.000510
 largest residual force= 0.000000 in node 22810 and dof 1
 largest increment of disp= 1.149858e-06
 largest correction to disp= 1.659747e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:45:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 2.01479e-08, limit = 1e-05, conv = true
(0) 14:45:40 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00687379, limit = 1e-05, conv = false
(0) 14:45:54 [impl::SolverInterfaceImpl]:390 in advance: [0mit 4 of 50 | dt# 50 | t 0.00049 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 50 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.900000e-04
 actual step time=5.000000e-04
 actual total time=5.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001223
 time avg. forc= 0.000510
 largest residual force= 0.000000 in node 8765 and dof 2
 largest increment of disp= 1.149858e-06
 largest correction to disp= 1.476375e-08 in node 13112 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001223
 time avg. forc= 0.000510
 largest residual force= 0.000000 in node 22821 and dof 1
 largest increment of disp= 1.149858e-06
 largest correction to disp= 1.672504e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:46:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 5.93574e-09, limit = 1e-05, conv = true
(0) 14:46:10 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00548365, limit = 1e-05, conv = false
(0) 14:46:24 [impl::SolverInterfaceImpl]:390 in advance: [0mit 5 of 50 | dt# 50 | t 0.00049 of 0.03 | dt 1e-05 | max dt 1e-05 | ongoing yes | dt complete no | read-iteration-checkpoint | 
Adapter reading checkpoint...
Adjusting time step for transient step
precice_dt dtheta = 0.000063, dtheta = 0.000063, solver_dt = 0.000010
Adapter reading coupling data...
 increment 50 attempt 2 
 increment size= 1.000000e-05
 sum of previous increments=4.900000e-04
 actual step time=5.000000e-04
 actual total time=5.000000e-04

 iteration 1

 Using up to 16 cpu(s) for the stress calculation.

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001223
 time avg. forc= 0.000510
 largest residual force= 0.000000 in node 8765 and dof 2
 largest increment of disp= 1.149858e-06
 largest correction to disp= 1.478414e-08 in node 13112 and dof 2

 no convergence

 iteration 2

 Using up to 16 cpu(s) for the symmetric stiffness/mass contributions.

 Factoring the system of equations using the symmetric spooles solver
 Using up to 16 cpu(s) for spooles.

 Using up to 16 cpu(s) for the stress calculation.

 average force= 0.001223
 time avg. forc= 0.000510
 largest residual force= 0.000000 in node 22821 and dof 2
 largest increment of disp= 1.149858e-06
 largest correction to disp= 1.664100e-13 in node 6956 and dof 2

 convergence

 Using up to 16 cpu(s) for the stress calculation.

Adapter writing coupling data...
Adapter calling advance()...
(0) 14:46:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 1.18792e-09, limit = 1e-05, conv = true
(0) 14:46:41 [cplscheme::BaseCouplingScheme]:673 in measureConvergence: [0mabsolute convergence measure: two-norm diff = 0.00229946, limit = 1e-05, conv = false