************************************************************* Tem3P ACE3P Codes Source Date: Mon Mar 6 23:26:49 2023 -0800 ACE3P Codes Source Branch: master ACE3P Codes Source Tag: 503652f41066a31de4a9b7088dd1fd7572ada43a Support Lib Source Date: Fri Dec 2 09:43:53 2022 -0800 Support Lib Source Branch: master Support Lib Source Tag: 2f7bd8bf8ec6eb3646dc05e32622a4475531a105 Compilation Date: Mon 06 Mar 2023 11:38:55 PM PST ************************************************************* Copyright 2023, Stanford University Authors make no representations or warranties, expressed or implied. By way of example, but not limitation, authors make no representatinos or warranties of merchantibility or fitness for any particular purpose or that the use of the software componentns of documentation will not infringe any patents, copyrights, trademarks or other rights. The Authors shall not be held liable for any liability nor for any direct, indirect or consequential damages with respect to any claim by users or any third party on account of or arising from the use of this software. ************************************************************* Advanced Computations Department SLAC National Accelerator Laboratory https://slacportal.slac.stanford.edu/sites/ard_public/acd/Pages/Default.aspx Contact: ace3p@slac.stanford.edu Thank you for citing ACE3P when publishing related results. ************************************************************* Starting master process on nid004422 Number of MPI processes: 16 Number of compute nodes: 1 Number of processes per node: 16 Data precision: 64 bits Compiler: 11.2.0 20210728 (Cray Inc.) Beginning run at Sat Mar 11 13:15:30 2023 --------------------------------- Entering ThermoElasticProblem::solve()... --------------------------------- In ThermoElasticProblem::solve(): begining tem3p iter 0 with 'runThermostaticProblem' = 0 with 'runThermoTransientProblem' = 0 with 'runElasticProblem' = 1 1 In StaticProblem::readKvcParameters1() of ElasticProblem, rank 0: instantiating ScalarDiscreteDomain... 2 In StaticProblem::readKvcParameters1() of ElasticProblem, rank 0: setting up ScalarDiscreteDomain... Read Mesh: TeslaCavity.ncdf Check Mesh: TeslaCavity.ncdf Time for read model: 0.07944075299997166 Time for setBasisOrder: 0.00965201100007107 Time for making right-orientation and calculating Adjacency: 0.1114300219999222 Partitioning Method: PARMETIS Setup: Max: 0.002, Sum: 0.024, Balance: 1.002 Matching: Max: 0.003, Sum: 0.056, Balance: 1.000 Contraction: Max: 0.003, Sum: 0.050, Balance: 1.000 InitPart: Max: 0.003, Sum: 0.051, Balance: 1.000 Project: Max: 0.000, Sum: 0.001, Balance: 1.144 Initialize: Max: 0.001, Sum: 0.011, Balance: 1.033 K-way: Max: 0.005, Sum: 0.076, Balance: 1.009 Remap: Max: 0.000, Sum: 0.001, Balance: 1.005 Total: Max: 0.017, Sum: 0.280, Balance: 1.000 Time for partitioning mesh: 0.08413375200007067 Time for replicating remote meshes: 0.01112579599998753 Time for numberingHierarchical: 0.2014198980000401 *********************************************************** * Total Number of Elements read: 286556 * Total Number of Elements used: 286556 * Total Number of DOFs: 1543974 *********************************************************** Time for numbering remote nodes: 0.002453365999940615 Time for numbering remote edges: 0.003860211000073832 Time for numbering remote faces: 0.005232791000025827 Time for numbering remote volumes: 0.0003366100000903316 Time for numbering DOF entities: 0.2133582920000663 Time for set model: 0.4250562710000167 Time for read midpoints: 0.0550651820000212 Time for creating higher-order elements: 0.0133415130000003 Problem Name: ElasticProblem loading RF solution for TEM3P... In StaticProblem::readKvcParameters1() of ElasticProblem, rank 0: setting map of boundaries... In StaticProblem::readKvcParameters1() of ElasticProblem, rank 0: map of boundaries set succesfully In StaticProblem::readKvcParameters1() of ElasticProblem, rank 0: setting linear solver... Leaving StaticProblem::readKvcParameters1() of ElasticProblem Reference Temperature is 0 Entering StaticProblem::instantiateMatrix() of ElasticProblem Entering assembleMatrix(). Entering assemblePatternValue(). Time for assembling elastic matrix: 1.71013 Leaving ElasticProblem::constructor() Time for assembling RHS: 24.5225 Solving Eigen Value Problem ********************************************************** ARPACK Loop: Shift = 986.9604401089358 ********************************************************** factorizing the matrix using MUMPS ... Using ParMETIS for ordering... Use 16 processors to do parallel reordering (ParMetis) Partition of Processors: 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Processor 0: 0, 95259 Processor 1: 95259, 193929 Processor 2: 193929, 289668 Processor 3: 289668, 385920 Processor 4: 385920, 484971 Processor 5: 484971, 577539 Processor 6: 577539, 676272 Processor 7: 676272, 773469 Processor 8: 773469, 866862 Processor 9: 866862, 963555 Processor 10: 963555, 1067331 Processor 11: 1067331, 1160007 Processor 12: 1160007, 1258224 Processor 13: 1258224, 1358952 Processor 14: 1358952, 1454532 Processor 15: 1454532, 1543974 total: 1543974 16 Generate ordering using parmetis... Finished generating ordering using parmetis Analysis step: 2.19752531e+00 seconds Maximal per-core estimated memory 953 MB Aggregated estimated memory 11714 MB Maximal per-core estimated memory if OOC 376MB Aggregated estimated memory if OOC 5205MB Factorization step: 2.56131616e+00 seconds Memory usage: used mem per MPI process: min: 1158 MB, max: 1294 MB, avg: 1242 MB, stddev: 42.63 MB, total: 1.987e+04 MB used mem per node in GB : min: 55.16 GB, max: 55.16 GB, avg: 55.16 GB, stddev: 0 GB, total: 55.16 GB used mem per node in % : min: 10.96 %, max: 10.96 %, avg: 10.96 %, stddev: 0 % ncv=10 nev=5 Linear Solver Preparation Time: 8.098 Solver Time: 6.431 Number of converged eigenpairs = 5 Eigenvalue: 155810.3367399491 Frequency: 18833843948.09091 Residual: 0.0001121898287672178 Eigenvalue: 1102696.548745892 Frequency: 50103589696.3413 Residual: 0.0006596775119074916 Eigenvalue: 2320829.496372321 Frequency: 72687955283.23715 Residual: 0.0001998482114033385 Eigenvalue: 3736456.033225828 Frequency: 92229695057.369 Residual: 0.0003322122177708153 Eigenvalue: 8667565.406783033 Frequency: 140471881145.8823 Residual: 0.07531132430306049 ********************************************************** Total number of OP*x operations: 39 Total number of B*x operations if BMAT='G': 113 Total number of steps of re-orthogonalization: 27 ********************************************************** COMMIT MODE: 0 FREQ = 18833843948.09091 k= 394.7281808282114 norm(v[0]) = 225.2816330895966 COMMIT MODE: 1 FREQ = 50103589696.3413 k= 1050.093590469865 norm(v[1]) = 210.3635884922792 COMMIT MODE: 2 FREQ = 72687955283.23715 k= 1523.42689236219 norm(v[2]) = 224.4605934627962 COMMIT MODE: 3 FREQ = 92229695057.369 k= 1932.991472621084 norm(v[3]) = 217.6357352343394 COMMIT MODE: 4 FREQ = 140471881145.8823 k= 2944.072928237857 norm(v[4]) = 216.3204288861293 Number of TriSolve: 39. Average time for one TriSolv: 1.65481519e-01 Save DOF mapping to tem3p_results/OUTPUT/E/dofs.ncdf ... Done. Time for that is 4.20804960e-02 Time for misc.out: 5.19743000e-04 Mode 1, Frequency: 62.82294115648136 Hz Structural mesh deformation written ===================================== Min u_x = -0.4449208573173354 Max u_x = 0.0001685815692254053 Min u_y = -0.002549900674551968 Max u_y = 0.002651147549675698 Min u_z = -0.1253252204834325 Max u_z = 0.1252327156123206 Max u_mag = 0.4451655151445568 Max u_mag block id = 1 ===================================== Displacement output file : tem3p_results/Displacement_Mode001_Freq62.82Hz.mod Mode 2, Frequency: 167.1275856323954088 Hz Structural mesh deformation written ===================================== Min u_x = -0.4139368865447767 Max u_x = 0.4092584982744153 Min u_y = -0.005354914625369611 Max u_y = 0.005103172074732691 Min u_z = -0.2843893945859732 Max u_z = 0.2826049627986532 Max u_mag = 0.4147662026071328 Max u_mag block id = 1 ===================================== Displacement output file : tem3p_results/Displacement_Mode002_Freq167.13Hz.mod Mode 3, Frequency: 242.4609203585673640 Hz Structural mesh deformation written ===================================== Min u_x = -0.01659369742859403 Max u_x = 0.01716133599831859 Min u_y = -0.01693868281908695 Max u_y = 0.01611470607975101 Min u_z = -1.285523720139599e-05 Max u_z = 0.4137515223584245 Max u_mag = 0.4137521918540016 Max u_mag block id = 1 ===================================== Displacement output file : tem3p_results/Displacement_Mode003_Freq242.46Hz.mod Mode 4, Frequency: 307.6451478221276830 Hz Structural mesh deformation written ===================================== Min u_x = -0.4021061683432299 Max u_x = 0.3529316956083689 Min u_y = -0.008153880839706763 Max u_y = 0.008145304997640258 Min u_z = -0.3387841624942756 Max u_z = 0.3409704566072134 Max u_mag = 0.4067985998142475 Max u_mag block id = 1 ===================================== Displacement output file : tem3p_results/Displacement_Mode004_Freq307.65Hz.mod Mode 5, Frequency: 468.5637593520859241 Hz Structural mesh deformation written ===================================== Min u_x = -0.4072353648519852 Max u_x = 0.4178350305877422 Min u_y = -0.01263580072936196 Max u_y = 0.01200094543016854 Min u_z = -0.456028647672956 Max u_z = 0.4458875128690813 Max u_mag = 0.4608655008759577 Max u_mag block id = 1 ===================================== Displacement output file : tem3p_results/Displacement_Mode005_Freq468.56Hz.mod Mode 1, Frequency: 62.82294115648136 Hz Mode 2, Frequency: 167.1275856323954088 Hz Mode 3, Frequency: 242.4609203585673640 Hz Mode 4, Frequency: 307.6451478221276830 Hz Mode 5, Frequency: 468.5637593520859241 Hz --------------------------------- Leaving ThermoElasticProblem::solve() --------------------------------- Leaving StaticProblem::destructor() of ElasticProblem Final result: total run time from timer manager 'Total run' is 4.50800785e+01 seconds Ending run at Sat Mar 11 13:16:15 2023 Total run time = 45 seconds