now starting lsdyna: License option : check network license only Date: 10/25/2021 Time: 12:39:59 ___________________________________________________ | | | Livermore Software Technology Corporation | | | | 7374 Las Positas Road | | Livermore, CA 94551 | | Tel: (925) 449-2500 Fax: (925) 449-2507 | | www.lstc.com | |_________________________________________________| | | | LS-DYNA, A Program for Nonlinear Dynamic | | Analysis of Structures in Three Dimensions | | Version : smp d R9.3.1 Date: 09/24/2019 | | Revision: 140922 Time: 08:43:37 | | | | Features enabled in this version: | | Shared Memory Parallel | | CESE CHEMISTRY EM ICFD STOCHASTIC_PARTICLES | | FFTW (multi-dimensional FFTW Library) | | ARPACK (nonsymmetric eigensolver library) | | ANSYS Database format | | ANSYS License (ANSYS160) | | | | Licensed to: Institut fr Modellierung und Simul| | Issued by : dynamore_10212021 | | | | Platform : Xeon64 System | | OS Level : Linux 2.6.32 uom | | Compiler : Intel Fortran Compiler 13.1 SSE2 | | Hostname : lead | | Precision : Double precision (I8R8) | | SVN Version: 140923 | | | | Unauthorized use infringes LSTC copyrights | |_________________________________________________| > i=cube_userload.k Input file: cube_userload.k The native file format : 64-bit small endian Memory size from default : 20000000 on UNIX computers note the following change: ctrl-c interrupts ls-dyna and prompts for a sense switch. type the desired sense switch: sw1., sw2., etc. to continue the execution. ls-dyna will respond as explained in the users manual type response ----- ------------------------------------------------------------ quit ls-dyna terminates. stop ls-dyna terminates. sw1. a restart file is written and ls-dyna terminates. sw2. ls-dyna responds with time and cycle numbers. sw3. a restart file is written and ls-dyna continues calculations. sw4. a plot state is written and ls-dyna continues calculations. sw5. ls-dyna enters interactive graphics phase. swa. ls-dyna flushes all output i/o buffers. lpri toggle implicit lin. alg. solver output on/off. nlpr toggle implicit nonlinear solver output on/off. iter toggle implicit output to d3iter database on/off. prof output timing data to messag and continue. conv force implicit nonlinear convergence for current time step. ttrm terminate implicit time step, reduce time step, retry time step. rtrm terminate implicit at end of current time step. ******** notice ******** notice ******** notice ******** * * * This is the LS-DYNA Finite Element code. * * * * Neither LSTC nor the authors assume any responsibility for * * the validity, accuracy, or applicability of any results * * obtained from this system. The user must verify his own * * results. * * * * LSTC endeavors to make the LS-DYNA code as complete, * * accurate and easy to use as possible. * * Suggestions and comments are welcomed. Please report any * * errors encountered in either the documentation or results * * immediately to LSTC through your site focus. * * * * Copyright (C) 1990-2018 * * by Livermore Software Technology Corp. (LSTC) * * All rights reserved * * * ******** notice ******** notice ******** notice ******** Beginning of keyword reader 10/25/21 12:39:59 Memory required to process keyword : 288183 Executing with LSTC network license now in loadud input of data is completed initial kinetic energy = 0.00000000E+00 Memory required to begin solution : 289K Additional dynamically allocated memory: 1580K Total: 1868K initialization completed Now in loadsetud numberOfVertices 3 Vertices preCICE: This is preCICE version 2.2.1 preCICE: Revision info: v2.2.1-302-g3bafc3d9 preCICE: Configuration: Debug preCICE: Configuring preCICE with configuration "../precice-config.xml" preCICE: I am participant "SolverOne" created precice dimensions: 3 allocated getmeshid vertices 0.000000000000000E+000 0.000000000000000E+000 0.000000000000000E+000 1.00000000000000 1.00000000000000 1.00000000000000 2.00000000000000 2.00000000000000 2.00000000000000 readdata 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 writeData 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 setvertices vertexIDs 4294967296 2 212501968799725428 get data id read get data id write initial readDataID 1 initial writeDataID 0 initialize preCICE: Setting up master communication to coupling partner/s preCICE: Masters are connected preCICE: Setting up preliminary slaves communication to coupling partner/s preCICE: Prepare partition for mesh MeshOne preCICE: Gather mesh MeshOne preCICE: Send global mesh MeshOne preCICE: Setting up slaves communication to coupling partner/s preCICE: Slaves are connected preCICE: iteration: 1 of 2, time-window: 1 of 3, time: 0, time-window-size: 1, max-timestep-length: 1, ongoing: yes, time-window-complete: no, write-iteration-checkpoint preCICE: initializeData is skipped since no data has to be initialized. End of first loadsetud in Timestep steps after initialization DUMMY: Writing iteration checkpoint 1 t 0.0000E+00 dt 7.06E-05 flush i/o buffers 10/25/21 12:40:23 1 t 0.0000E+00 dt 7.06E-05 write d3plot file 10/25/21 12:40:23 writing data: 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 wrote data: 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 preCICE: iteration: 2 of 2, time-window: 1 of 3, time: 0, time-window-size: 1, max-timestep-length: 1, ongoing: yes, time-window-complete: no, read-iteration-checkpoint DUMMY: Reading iteration checkpoint checkongoing 1 steps after initialization readData before reading 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 read bv data: 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 writing data: 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 wrote data: 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 preCICE: Time window completed preCICE: iteration: 1 of 2, time-window: 2 of 3, time: 1, time-window-size: 1, max-timestep-length: 1, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint DUMMY: Advancing in time checkongoing 1 steps after initialization DUMMY: Writing iteration checkpoint readData before reading 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 read bv data: 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 writing data: 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 wrote data: 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 preCICE: iteration: 2 of 2, time-window: 2 of 3, time: 1, time-window-size: 1, max-timestep-length: 1, ongoing: yes, time-window-complete: no, read-iteration-checkpoint DUMMY: Reading iteration checkpoint checkongoing 1 steps after initialization readData before reading 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 read bv data: 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 writing data: 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 wrote data: 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 preCICE: Time window completed preCICE: iteration: 1 of 2, time-window: 3 of 3, time: 2, time-window-size: 1, max-timestep-length: 1, ongoing: yes, time-window-complete: yes, write-iteration-checkpoint DUMMY: Advancing in time checkongoing 1 steps after initialization DUMMY: Writing iteration checkpoint readData before reading 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 read bv data: 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 writing data: 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 wrote data: 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 preCICE: iteration: 2 of 2, time-window: 3 of 3, time: 2, time-window-size: 1, max-timestep-length: 1, ongoing: yes, time-window-complete: no, read-iteration-checkpoint DUMMY: Reading iteration checkpoint checkongoing 1 steps after initialization readData before reading 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 read bv data: 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 5.00000000000000 writing data: 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 wrote data: 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 10.0000000000000 preCICE: Time window completed preCICE: iteration: 1 of 2, time-window: 4 of 3, time: 3, time-window-size: 1, max-timestep-length: 1, ongoing: no, time-window-complete: yes, DUMMY: Advancing in time checkongoing 0 finalize preCICE: Synchronize participants and close communication channels deallocate end lsdyna 6 t 4.2374E-04 dt 7.06E-05 write d3plot file 10/25/21 12:40:23 N o r m a l t e r m i n a t i o n 10/25/21 12:40:23 Memory required to complete solution : 289K Additional dynamically allocated memory: 1580K Total: 1868K T i m i n g i n f o r m a t i o n CPU(seconds) %CPU Clock(seconds) %Clock ---------------------------------------------------------------- Keyword Processing ... 1.6448E-02 2.37 1.6452E-02 0.07 KW Reading ......... 4.7610E-03 0.69 4.7630E-03 0.02 KW Writing ......... 5.0457E-03 0.73 5.0460E-03 0.02 Initialization ....... 2.3802E-01 34.31 2.4215E-01 0.98 Init Proc Phase 1 .. 1.1177E-01 16.11 1.1469E-01 0.47 Init Proc Phase 2 .. 5.2943E-04 0.08 7.3000E-04 0.00 Init solver .......... 3.6487E-01 52.59 2.4261E+01 98.37 Element processing ... 9.4469E-04 0.14 9.5300E-04 0.00 Solids ............. 8.2845E-04 0.12 8.2800E-04 0.00 Binary databases ..... 4.2886E-04 0.06 4.2900E-04 0.00 ASCII database ....... 5.4559E-05 0.01 5.5000E-05 0.00 Contact algorithm .... 4.3333E-05 0.01 4.5000E-05 0.00 Rigid Bodies ......... 4.8393E-05 0.01 4.9000E-05 0.00 Time step size ....... 8.0896E-05 0.01 7.7000E-05 0.00 Group force file ..... 8.7910E-06 0.00 1.0000E-05 0.00 Others ............... 1.0479E-04 0.02 1.0600E-04 0.00 Misc. 1 .............. 4.0709E-04 0.06 6.9100E-04 0.00 Misc. 2 .............. 9.8995E-05 0.01 9.9000E-05 0.00 Misc. 3 .............. 7.0454E-02 10.15 1.3851E-01 0.56 Misc. 4 .............. 1.7827E-03 0.26 1.7930E-03 0.01 ---------------------------------------------------------------- T o t a l s 6.9380E-01 100.00 2.4663E+01 100.00 Problem time = 4.2374E-04 Problem cycle = 6 Total CPU time = 1 seconds ( 0 hours 0 minutes 1 seconds) CPU time per zone cycle = 9152811.750 nanoseconds Clock time per zone cycle= 508420666.667 nanoseconds Number of CPU's 1 NLQ used/max 192/ 192 Start time 10/25/2021 12:39:59 End time 10/25/2021 12:40:23 Elapsed time 24 seconds for 6 cycles using 1 SMP thread ( 0 hour 0 minute 24 seconds) N o r m a l t e r m i n a t i o n 10/25/21 12:40:23