************************************************************* T3P 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 nid006245 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.) ********************************************************** Loading is PortModeLoading Boundary conditions: 0 = INTERIOR 1 = MAGNETIC 2 = MAGNETIC 3 = IMPEDANCE 4 = ABSORBING 5 = ABSORBING 6 = ELECTRIC Boundary 3 has surface conductivity of 5.8e+07 S/m Surface impedance model Metal properties: Epsilon = 1 MU = 1 Sigma = 5.8e+07 Frequency = 5e+09 Coating properties: Epsilon = 56 MU = 1 Sigma = 12 Thickness (m) = 0.001 Read Mesh: /pscratch/sd/c/cho/cw23/t3p/SIBC/test-sibc.ncdf Time for reading the model: 0.0351304 Newmark-beta with Integrated-E timestepping scheme is used. Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 1541 * Total Number of DOFs: 9608 *********************************************************** Time for setting up finite element framework: 0.057033 Checking Mesh Quality: TETRAHEDRAL ELEMENTS: number = 1541 INVERTED SECOND-ORDER ELEMENTS: number = 0 <- GOOD! ASPECT RATIO: min = 1.01533 max = 1.99898 <- GREAT average = 1.42906 std dev = 0.168908 SHAPE MEASURE: min = 0.630127 <- GREAT max = 1.04923 average = 0.873775 std dev = 0.0792504 ELEMENT VOLUME: min = 1.77101e-07 max = 7.08212e-07 average = 4.05637e-07 std dev = 8.28661e-08 BOUNDING BOX: min = (0, 0, -0.5) max = (0.1, 0.1, -0.387669) EDGE LENGTH: min = 0.0100201 max = 0.0243217 average = 0.0158041 std dev = 0.00226383 Time for checking the mesh quality: 0.00100369 ******************************** ** Total number of DOFs: 9608 ** ******************************** -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 9608 stddev : 31.862203313644 min : 546 max : 674 average : 600.5 } NonlocalelementsDistribution : { total : 10352 stddev : 138.46973195131 min : 400 max : 930 average : 647.0 } NonZeroDistribution : { total : 369896 stddev : 1238.7097588486 min : 20628 max : 25088 average : 23118.5 } } /********************************/ setMatrices time: 0.042687 writeMatrices time: 3.127e-05 At t=0, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 51.41 MB, max: 54.04 MB, avg: 52.27 MB, stddev: 0.8351 MB, total: 836.4 MB used mem per node in GB : min: 21.66 GB, max: 21.66 GB, avg: 21.66 GB, stddev: 0 GB, total: 21.66 GB used mem per node in % : min: 4.304 %, max: 4.304 %, avg: 4.304 %, stddev: 9.173e-16 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 0 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.002078 Initializing Port Mode Loading...ESNumerical2D: Solving for port modes factorizing the matrix using MUMPS... Processor 0: 0, 85 Processor 1: 85, 169 Processor 2: 169, 253 Processor 3: 253, 337 Processor 4: 337, 422 total: 422 5 Generate ordering using metis... Numerical port solution time: 0.3514 ABC Scaling Factor is 1 Using analytical solution at port boundary Done! -------------------------------------------------- BoundaryID: 4 Excitation: Power = 1 Pulse: Pulse type = GaussianPulse Frequency (Hz) = 5e+09 Bandwidth (Hz) = 2e+09 db at cutoff = 30 t0 (s) = 2.82 Phase (deg) = 0 /********************************/ /* input parameters, KVC syntax */ /********************************/ Mesh : { ReplicatedElementDistribution : { total : 3356 stddev : 55.3865206225 min : 121 max : 327 average : 209.75 } MeshCoords : 3373 ElementDistribution : { total : 1541 stddev : 1.7404501333467 min : 94 max : 99 average : 96.3125 } File : meshfile } /********************************/ Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.00632 Saving Checkpoints every 500 Time Steps Starting the time domain loop Pulse Start Point: (0.01, 0.05, -0.9971) End Point: (0.01, 0.05, -0.497) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 10, after 0m0s, 1% done, remaining walltime: 0m5s + t = 100 ps, dt = 10 ps, |E| = 0.108492702152 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 10 16 9608 0.005116 0 2.03 95.1 2.37 52 0.46 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.967141896763) End Point: (0.01, 0.05, -0.46702282962) Pulse Start Point: (0.01, 0.05, -0.949154349283) End Point: (0.01, 0.05, -0.44903528214) Previous Window: [(0.01, 0.05, -1.10011906714) - (0.01, 0.05, -0.4)] Current Window: [(0.01, 0.05, -1.04915434928) - (0.01, 0.05, -0.34903528214)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 1.6e-10 In Application::writeCheckPoint(): finishing checkpoint after 0.018133042 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 2326 * Total Number of DOFs: 14398 *********************************************************** Time for setting up finite element framework: 0.025892824 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 14398 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 14398 stddev : 34.023276346251 min : 842 max : 968 average : 899.875 } NonlocalelementsDistribution : { total : 12430 stddev : 197.36256821731 min : 460 max : 1090 average : 776.875 } NonZeroDistribution : { total : 558868 stddev : 1207.7763313903 min : 32644 max : 36716 average : 34929.25 } } /********************************/ setMatrices time: 0.0550274780001 writeMatrices time: 5.45099987903e-06 At t=1.6e-10, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 54.64 MB, max: 63.04 MB, avg: 58.2 MB, stddev: 2.5 MB, total: 931.3 MB used mem per node in GB : min: 21.78 GB, max: 21.78 GB, avg: 21.78 GB, stddev: 0.0001211 GB, total: 21.78 GB used mem per node in % : min: 4.327 %, max: 4.327 %, avg: 4.327 %, stddev: 2.407e-05 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 1.6e-10 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.00165 Initializing Port Mode Loading...ESNumerical2D: Solving for port modes factorizing the matrix using MUMPS... Processor 0: 0, 106 Processor 1: 106, 211 Processor 2: 211, 316 Processor 3: 316, 422 total: 422 4 Generate ordering using parmetis... Finished generating ordering using parmetis Numerical port solution time: 0.172 ABC Scaling Factor is 1 Using analytical solution at port boundary Done! -------------------------------------------------- BoundaryID: 4 Excitation: Power = 1 Pulse: Pulse type = GaussianPulse Frequency (Hz) = 5e+09 Bandwidth (Hz) = 2e+09 db at cutoff = 30 t0 (s) = 2.82 Phase (deg) = 0 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.003687 In Application::writeCheckPoint(): beginning checkpoint at t = 1.7e-10 In Application::writeCheckPoint(): finishing checkpoint after 0.01812 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 20, after 0m1s, 1% done, remaining walltime: 0m34s + t = 200 ps, dt = 10 ps, |E| = 0.516065420532 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 20 16 1.44e+04 0.03556 65.9 0.248 14 0.333 19 19.5 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.937162650963) End Point: (0.01, 0.05, -0.43704358382) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 30, after 0m1s, 3% done, remaining walltime: 0m5s + t = 300 ps, dt = 10 ps, |E| = 2.06487553623 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 30 16 1.44e+04 0.005898 0 0.636 96.9 2.27 49 0.167 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.907183405163) End Point: (0.01, 0.05, -0.40706433802) Pulse Start Point: (0.01, 0.05, -0.898189631423) End Point: (0.01, 0.05, -0.39807056428) Previous Window: [(0.01, 0.05, -1.04915434928) - (0.01, 0.05, -0.34903528214)] Current Window: [(0.01, 0.05, -0.998189631423) - (0.01, 0.05, -0.29807056428)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 3.3e-10 In Application::writeCheckPoint(): finishing checkpoint after 0.016372002 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 3114 * Total Number of DOFs: 19202 *********************************************************** Time for setting up finite element framework: 0.0279505780002 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 19202 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 19202 stddev : 41.340657953158 min : 1124 max : 1266 average : 1200.125 } NonlocalelementsDistribution : { total : 14190 stddev : 253.25714863224 min : 450 max : 1380 average : 886.875 } NonZeroDistribution : { total : 748868 stddev : 1070.835654991 min : 45064 max : 48524 average : 46804.25 } } /********************************/ setMatrices time: 0.0689389290001 writeMatrices time: 5.33999991603e-06 At t=3.3e-10, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 59.28 MB, max: 67.81 MB, avg: 62.24 MB, stddev: 2.622 MB, total: 995.8 MB used mem per node in GB : min: 21.85 GB, max: 21.85 GB, avg: 21.85 GB, stddev: 0 GB, total: 21.85 GB used mem per node in % : min: 4.342 %, max: 4.342 %, avg: 4.342 %, stddev: 1.835e-15 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 3.3e-10 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.002142 Initializing Port Mode Loading...ESNumerical2D: Solving for port modes factorizing the matrix using MUMPS... Processor 0: 0, 141 Processor 1: 141, 281 Processor 2: 281, 422 total: 422 3 Generate ordering using metis... Numerical port solution time: 0.1259 ABC Scaling Factor is 1 Using analytical solution at port boundary Done! -------------------------------------------------- BoundaryID: 4 Excitation: Power = 1 Pulse: Pulse type = GaussianPulse Frequency (Hz) = 5e+09 Bandwidth (Hz) = 2e+09 db at cutoff = 30 t0 (s) = 2.82 Phase (deg) = 0 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.00568 In Application::writeCheckPoint(): beginning checkpoint at t = 3.4e-10 In Application::writeCheckPoint(): finishing checkpoint after 0.016 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 40, after 0m1s, 4% done, remaining walltime: 0m32s + t = 400 ps, dt = 10 ps, |E| = 6.65660817462 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 40 16 1.92e+04 0.03418 59.3 0.115 19.7 0.449 34 20.4 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.877204159363) End Point: (0.01, 0.05, -0.37708509222) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 50, after 0m1s, 5% done, remaining walltime: 0m6s + t = 500 ps, dt = 10 ps, |E| = 17.3266300438 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 50 16 1.92e+04 0.007329 0 0.508 97.1 2.21 48 0.146 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Dumping EM field volume monitor data into file t3p_results/OUTPUT/fieldts_t000000000500ps.out Pulse Start Point: (0.01, 0.05, -0.847224913563) End Point: (0.01, 0.05, -0.34710584642) Previous Window: [(0.01, 0.05, -0.998189631423) - (0.01, 0.05, -0.29807056428)] Current Window: [(0.01, 0.05, -0.947224913563) - (0.01, 0.05, -0.24710584642)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 5e-10 In Application::writeCheckPoint(): finishing checkpoint after 0.013850022 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 3891 * Total Number of DOFs: 24012 *********************************************************** Time for setting up finite element framework: 0.0305209200001 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 24012 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 24012 stddev : 58.249463516843 min : 1396 max : 1608 average : 1500.75 } NonlocalelementsDistribution : { total : 14708 stddev : 227.19727111037 min : 528 max : 1392 average : 919.25 } NonZeroDistribution : { total : 939488 stddev : 1713.6197944702 min : 55848 max : 61448 average : 58718.0 } } /********************************/ setMatrices time: 0.0829944279999 writeMatrices time: 6.04199999543e-06 At t=5e-10, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 63.72 MB, max: 71.75 MB, avg: 65.78 MB, stddev: 2.398 MB, total: 1052 MB used mem per node in GB : min: 21.9 GB, max: 21.9 GB, avg: 21.9 GB, stddev: 0 GB, total: 21.9 GB used mem per node in % : min: 4.352 %, max: 4.352 %, avg: 4.352 %, stddev: 1.835e-15 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 5e-10 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.002518 Initializing Port Mode Loading...ESNumerical2D: Solving for port modes factorizing the matrix using MUMPS... Processor 0: 0, 141 Processor 1: 141, 281 Processor 2: 281, 422 total: 422 3 Generate ordering using metis... Numerical port solution time: 0.1268 ABC Scaling Factor is 1 Using analytical solution at port boundary Done! -------------------------------------------------- BoundaryID: 4 Excitation: Power = 1 Pulse: Pulse type = GaussianPulse Frequency (Hz) = 5e+09 Bandwidth (Hz) = 2e+09 db at cutoff = 30 t0 (s) = 2.82 Phase (deg) = 0 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.004447 In Application::writeCheckPoint(): beginning checkpoint at t = 5.1e-10 In Application::writeCheckPoint(): finishing checkpoint after 0.0184 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 60, after 0m1s, 5% done, remaining walltime: 0m35s + t = 600 ps, dt = 10 ps, |E| = 36.6285622166 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 60 16 2.401e+04 0.03823 57.4 2.58 20.8 0.479 46 18.7 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.817245667763) End Point: (0.01, 0.05, -0.31712660062) Pulse Start Point: (0.01, 0.05, -0.796260195703) End Point: (0.01, 0.05, -0.29614112856) Previous Window: [(0.01, 0.05, -0.947224913563) - (0.01, 0.05, -0.24710584642)] Current Window: [(0.01, 0.05, -0.896260195703) - (0.01, 0.05, -0.19614112856)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 6.7e-10 In Application::writeCheckPoint(): finishing checkpoint after 0.016077282 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 4585 * Total Number of DOFs: 28458 *********************************************************** Time for setting up finite element framework: 0.0309739549998 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 28458 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 28458 stddev : 57.890557664153 min : 1694 max : 1896 average : 1778.625 } NonlocalelementsDistribution : { total : 16220 stddev : 230.97806533666 min : 722 max : 1462 average : 1013.75 } NonZeroDistribution : { total : 1116724 stddev : 1712.8024404467 min : 67888 max : 73072 average : 69795.25 } } /********************************/ setMatrices time: 0.0905729900001 writeMatrices time: 6.43200019113e-06 At t=6.7e-10, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 66.08 MB, max: 74.48 MB, avg: 69.71 MB, stddev: 2.732 MB, total: 1115 MB used mem per node in GB : min: 21.96 GB, max: 21.96 GB, avg: 21.96 GB, stddev: 0 GB, total: 21.96 GB used mem per node in % : min: 4.363 %, max: 4.363 %, avg: 4.363 %, stddev: 0 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 6.7e-10 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.002854 Initializing Port Mode Loading...ESNumerical2D: Solving for port modes Numerical port solution time: 0.1225 ABC Scaling Factor is 1 Using analytical solution at port boundary Done! -------------------------------------------------- BoundaryID: 4 Excitation: Power = 1 Pulse: Pulse type = GaussianPulse Frequency (Hz) = 5e+09 Bandwidth (Hz) = 2e+09 db at cutoff = 30 t0 (s) = 2.82 Phase (deg) = 0 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.01006 In Application::writeCheckPoint(): beginning checkpoint at t = 6.8e-10 In Application::writeCheckPoint(): finishing checkpoint after 0.02055 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 70, after 0m2s, 6% done, remaining walltime: 0m36s + t = 700 ps, dt = 10 ps, |E| = 63.5256208658 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 70 16 2.846e+04 0.03901 56.6 0.112 21.7 0.485 14 21.2 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.787266421963) End Point: (0.01, 0.05, -0.28714735482) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 80, after 0m2s, 7% done, remaining walltime: 0m8s + t = 800 ps, dt = 10 ps, |E| = 91.9591784895 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 80 16 2.846e+04 0.009687 0 1.14 97.3 2.1 48 0 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.757287176163) End Point: (0.01, 0.05, -0.25716810902) Pulse Start Point: (0.01, 0.05, -0.745295477843) End Point: (0.01, 0.05, -0.2451764107) Previous Window: [(0.01, 0.05, -0.896260195703) - (0.01, 0.05, -0.19614112856)] Current Window: [(0.01, 0.05, -0.845295477843) - (0.01, 0.05, -0.1451764107)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 8.4e-10 In Application::writeCheckPoint(): finishing checkpoint after 0.017962763 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 5217 * Total Number of DOFs: 32496 *********************************************************** Time for setting up finite element framework: 0.033469774 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 32496 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 32496 stddev : 61.470860305243 min : 1932 max : 2124 average : 2031.0 } NonlocalelementsDistribution : { total : 17482 stddev : 231.61660130483 min : 634 max : 1402 average : 1092.625 } NonZeroDistribution : { total : 1277544 stddev : 2590.5411017778 min : 76244 max : 85648 average : 79846.5 } } /********************************/ setMatrices time: 0.0951942419999 writeMatrices time: 7.24400001673e-06 At t=8.4e-10, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 68.71 MB, max: 77.86 MB, avg: 73.24 MB, stddev: 3.116 MB, total: 1172 MB used mem per node in GB : min: 22 GB, max: 22 GB, avg: 22 GB, stddev: 0 GB, total: 22 GB used mem per node in % : min: 4.373 %, max: 4.373 %, avg: 4.373 %, stddev: 9.173e-16 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 8.4e-10 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.003236 Initializing Port Mode Loading...ESNumerical2D: Solving for port modes Numerical port solution time: 0.1227 ABC Scaling Factor is 1 Using analytical solution at port boundary Done! -------------------------------------------------- BoundaryID: 4 Excitation: Power = 1 Pulse: Pulse type = GaussianPulse Frequency (Hz) = 5e+09 Bandwidth (Hz) = 2e+09 db at cutoff = 30 t0 (s) = 2.82 Phase (deg) = 0 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.01172 In Application::writeCheckPoint(): beginning checkpoint at t = 8.5e-10 In Application::writeCheckPoint(): finishing checkpoint after 0.02146 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 90, after 0m2s, 8% done, remaining walltime: 0m38s + t = 900 ps, dt = 10 ps, |E| = 114.264738075 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 90 16 3.25e+04 0.0423 53.4 0.124 24.7 0.528 30 21.2 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.727307930363) End Point: (0.01, 0.05, -0.22718886322) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 100, after 0m2s, 9% done, remaining walltime: 0m10s + t = 1000 ps, dt = 10 ps, |E| = 126.850560922 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 100 16 3.25e+04 0.01123 0 0.431 97.4 2.03 50 0.1 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Dumping EM field volume monitor data into file t3p_results/OUTPUT/fieldts_t000000001000ps.out Pulse Start Point: (0.01, 0.05, -0.697328684563) End Point: (0.01, 0.05, -0.19720961742) Pulse Start Point: (0.01, 0.05, -0.694330759983) End Point: (0.01, 0.05, -0.19421169284) Previous Window: [(0.01, 0.05, -0.845295477843) - (0.01, 0.05, -0.1451764107)] Current Window: [(0.01, 0.05, -0.794330759983) - (0.01, 0.05, -0.09421169284)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 1.01e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.0187601719999 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 6004 * Total Number of DOFs: 37516 *********************************************************** Time for setting up finite element framework: 0.0331651050001 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 37516 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 37516 stddev : 89.686490993163 min : 2230 max : 2500 average : 2344.75 } NonlocalelementsDistribution : { total : 16902 stddev : 234.29123614283 min : 592 max : 1322 average : 1056.375 } NonZeroDistribution : { total : 1478360 stddev : 3719.1224412936 min : 87648 max : 99812 average : 92397.5 } } /********************************/ setMatrices time: 0.104055111 writeMatrices time: 6.04199999543e-06 At t=1.01e-09, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 72.81 MB, max: 82.47 MB, avg: 77.78 MB, stddev: 3.411 MB, total: 1245 MB used mem per node in GB : min: 22.07 GB, max: 22.07 GB, avg: 22.07 GB, stddev: 0 GB, total: 22.07 GB used mem per node in % : min: 4.386 %, max: 4.386 %, avg: 4.386 %, stddev: 9.173e-16 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 1.01e-09 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.003785 Initializing Port Mode Loading...ESNumerical2D: Solving for port modes Numerical port solution time: 0.1673 ABC Scaling Factor is 1 Using analytical solution at port boundary Done! -------------------------------------------------- BoundaryID: 4 Excitation: Power = 1 Pulse: Pulse type = GaussianPulse Frequency (Hz) = 5e+09 Bandwidth (Hz) = 2e+09 db at cutoff = 30 t0 (s) = 2.82 Phase (deg) = 0 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.01216 In Application::writeCheckPoint(): beginning checkpoint at t = 1.02e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.02354 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 110, after 0m3s, 10% done, remaining walltime: 0m44s + t = 1100 ps, dt = 10 ps, |E| = 131.65455972 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 110 16 3.752e+04 0.05016 55.8 2.17 22.9 0.522 40 18.6 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.667349438763) End Point: (0.01, 0.05, -0.16723037162) Pulse Start Point: (0.01, 0.05, -0.643366042123) End Point: (0.01, 0.05, -0.14324697498) Previous Window: [(0.01, 0.05, -0.794330759983) - (0.01, 0.05, -0.09421169284)] Current Window: [(0.01, 0.05, -0.743366042123) - (0.01, 0.05, -0.04324697498)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 1.18e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.022726461 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 6776 * Total Number of DOFs: 42440 *********************************************************** Time for setting up finite element framework: 0.0381788460002 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 42440 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 42440 stddev : 64.45463520958 min : 2552 max : 2758 average : 2652.5 } NonlocalelementsDistribution : { total : 18504 stddev : 241.29926094651 min : 588 max : 1434 average : 1156.5 } NonZeroDistribution : { total : 1675528 stddev : 3242.5280260932 min : 100088 max : 110020 average : 104720.5 } } /********************************/ setMatrices time: 0.116710317 writeMatrices time: 8.94799995876e-06 At t=1.18e-09, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 77.19 MB, max: 88.72 MB, avg: 82.41 MB, stddev: 3.497 MB, total: 1319 MB used mem per node in GB : min: 22.14 GB, max: 22.14 GB, avg: 22.14 GB, stddev: 0 GB, total: 22.14 GB used mem per node in % : min: 4.4 %, max: 4.4 %, avg: 4.4 %, stddev: 0 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 1.18e-09 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.004701 Initializing Port Mode Loading...ESNumerical2D: Solving for port modes Numerical port solution time: 0.143 ABC Scaling Factor is 1 Using analytical solution at port boundary Done! -------------------------------------------------- BoundaryID: 4 Excitation: Power = 1 Pulse: Pulse type = GaussianPulse Frequency (Hz) = 5e+09 Bandwidth (Hz) = 2e+09 db at cutoff = 30 t0 (s) = 2.82 Phase (deg) = 0 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.01294 In Application::writeCheckPoint(): beginning checkpoint at t = 1.19e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.02559 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 120, after 0m3s, 11% done, remaining walltime: 0m43s + t = 1200 ps, dt = 10 ps, |E| = 132.508464376 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 120 16 4.244e+04 0.04977 54.1 0.113 24.2 0.539 9 21.1 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.637370192963) End Point: (0.01, 0.05, -0.13725112582) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 130, after 0m4s, 12% done, remaining walltime: 0m12s + t = 1300 ps, dt = 10 ps, |E| = 132.057171348 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 130 16 4.244e+04 0.0138 0 0.437 97.4 2.09 49 0.0903 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.607390947163) End Point: (0.01, 0.05, -0.10727188002) Pulse Start Point: (0.01, 0.05, -0.592401324263) End Point: (0.01, 0.05, -0.09228225712) Previous Window: [(0.01, 0.05, -0.743366042123) - (0.01, 0.05, -0.04324697498)] Current Window: [(0.01, 0.05, -0.692401324263) - (0.01, 0.05, 0.00771774288)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 1.35e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.0213438810001 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 7546 * Total Number of DOFs: 47354 *********************************************************** Time for setting up finite element framework: 0.0383339460002 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 47354 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 47354 stddev : 86.039428945881 min : 2830 max : 3084 average : 2959.625 } NonlocalelementsDistribution : { total : 19180 stddev : 252.39215518712 min : 750 max : 1608 average : 1198.75 } NonZeroDistribution : { total : 1871580 stddev : 4022.1387262666 min : 111224 max : 123772 average : 116973.75 } } /********************************/ setMatrices time: 0.122887113 writeMatrices time: 1.17929998851e-05 At t=1.35e-09, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 81.5 MB, max: 91.4 MB, avg: 86.06 MB, stddev: 3.398 MB, total: 1377 MB used mem per node in GB : min: 22.21 GB, max: 22.21 GB, avg: 22.21 GB, stddev: 0 GB, total: 22.21 GB used mem per node in % : min: 4.413 %, max: 4.413 %, avg: 4.413 %, stddev: 0 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 1.35e-09 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.004918 Initializing Port Mode Loading...ESNumerical2D: Solving for port modes Numerical port solution time: 0.1638 ABC Scaling Factor is 1 Using analytical solution at port boundary Done! -------------------------------------------------- BoundaryID: 4 Excitation: Power = 1 Pulse: Pulse type = GaussianPulse Frequency (Hz) = 5e+09 Bandwidth (Hz) = 2e+09 db at cutoff = 30 t0 (s) = 2.82 Phase (deg) = 0 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.01301 In Application::writeCheckPoint(): beginning checkpoint at t = 1.36e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.0262 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 140, after 0m4s, 13% done, remaining walltime: 0m46s + t = 1400 ps, dt = 10 ps, |E| = 131.628447276 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 140 16 4.735e+04 0.05445 54.4 0.119 25.5 0.557 23 19.4 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.577411701363) End Point: (0.01, 0.05, -0.07729263422) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 150, after 0m4s, 14% done, remaining walltime: 0m12s + t = 1500 ps, dt = 10 ps, |E| = 131.733000278 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 150 16 4.735e+04 0.0147 0 0.414 97.4 2.13 47 0.0947 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Dumping EM field volume monitor data into file t3p_results/OUTPUT/fieldts_t000000001500ps.out Pulse Start Point: (0.01, 0.05, -0.547432455563) End Point: (0.01, 0.05, -0.04731338842) Pulse Start Point: (0.01, 0.05, -0.541436606403) End Point: (0.01, 0.05, -0.04131753926) Previous Window: [(0.01, 0.05, -0.692401324263) - (0.01, 0.05, 0.00771774288)] Current Window: [(0.01, 0.05, -0.641436606403) - (0.01, 0.05, 0.05868246074)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 1.52e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.022077758 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 8210 * Total Number of DOFs: 51588 *********************************************************** Time for setting up finite element framework: 0.040506631 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 51588 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 51588 stddev : 76.58676996279 min : 3090 max : 3358 average : 3224.25 } NonlocalelementsDistribution : { total : 19478 stddev : 187.26483029834 min : 924 max : 1516 average : 1217.375 } NonZeroDistribution : { total : 2041104 stddev : 4006.4866071576 min : 121788 max : 134180 average : 127569.0 } } /********************************/ setMatrices time: 0.128383095 writeMatrices time: 1.09110001176e-05 At t=1.52e-09, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 83.71 MB, max: 95.81 MB, avg: 89.6 MB, stddev: 3.669 MB, total: 1434 MB used mem per node in GB : min: 22.26 GB, max: 22.26 GB, avg: 22.26 GB, stddev: 0 GB, total: 22.26 GB used mem per node in % : min: 4.424 %, max: 4.424 %, avg: 4.424 %, stddev: 0 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 1.52e-09 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.005335 Initializing Port Mode Loading...ESNumerical2D: Solving for port modes factorizing the matrix using MUMPS... Processor 0: 0, 211 Processor 1: 211, 422 total: 422 2 Generate ordering using parmetis... Finished generating ordering using parmetis Numerical port solution time: 0.1454 ABC Scaling Factor is 1 Using analytical solution at port boundary Done! -------------------------------------------------- BoundaryID: 4 Excitation: Power = 1 Pulse: Pulse type = GaussianPulse Frequency (Hz) = 5e+09 Bandwidth (Hz) = 2e+09 db at cutoff = 30 t0 (s) = 2.82 Phase (deg) = 0 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.01039 In Application::writeCheckPoint(): beginning checkpoint at t = 1.53e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.02746 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 160, after 0m5s, 15% done, remaining walltime: 0m47s + t = 1600 ps, dt = 10 ps, |E| = 132.015272104 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 160 16 5.159e+04 0.05701 50.7 2.18 27.8 0.595 39 18.7 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.517453209763) End Point: (0.01, 0.05, -0.01733414262) Pulse Start Point: (0.01, 0.05, -0.490471888543) End Point: (0.01, 0.05, 0.0096471786) Previous Window: [(0.01, 0.05, -0.641436606403) - (0.01, 0.05, 0.05868246074)] Current Window: [(0.01, 0.05, -0.590471888543) - (0.01, 0.05, 0.1096471786)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 1.69e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.022869998 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 8974 * Total Number of DOFs: 56462 *********************************************************** Time for setting up finite element framework: 0.0426864000001 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 56462 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 56462 stddev : 84.708027954852 min : 3344 max : 3648 average : 3528.875 } NonlocalelementsDistribution : { total : 19798 stddev : 225.06380576776 min : 746 max : 1488 average : 1237.375 } NonZeroDistribution : { total : 2235940 stddev : 4041.5925491486 min : 131164 max : 145652 average : 139746.25 } } /********************************/ setMatrices time: 0.137341692 writeMatrices time: 1.09510001494e-05 At t=1.69e-09, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 89.84 MB, max: 101.1 MB, avg: 93.38 MB, stddev: 3.268 MB, total: 1494 MB used mem per node in GB : min: 22.33 GB, max: 22.33 GB, avg: 22.33 GB, stddev: 0 GB, total: 22.33 GB used mem per node in % : min: 4.436 %, max: 4.436 %, avg: 4.436 %, stddev: 0 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 1.69e-09 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.006296 Initializing Port Mode Loading...ESNumerical2D: Solving for port modes factorizing the matrix using MUMPS... Processor 0: 0, 211 Processor 1: 211, 422 total: 422 2 Generate ordering using parmetis... Finished generating ordering using parmetis Numerical port solution time: 0.1599 ABC Scaling Factor is 1 Using analytical solution at port boundary Done! -------------------------------------------------- BoundaryID: 4 Excitation: Power = 1 Pulse: Pulse type = GaussianPulse Frequency (Hz) = 5e+09 Bandwidth (Hz) = 2e+09 db at cutoff = 30 t0 (s) = 2.82 Phase (deg) = 0 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.009556 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 170, after 0m5s, 16% done, remaining walltime: 0m46s + t = 1700 ps, dt = 10 ps, |E| = 131.463135797 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 170 16 5.646e+04 0.0555 56.3 0.268 28.2 0.605 4 14.6 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ In Application::writeCheckPoint(): beginning checkpoint at t = 1.7e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.0289570680002 seconds Pulse Start Point: (0.01, 0.05, -0.487473963963) End Point: (0.01, 0.05, 0.01264510318) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 180, after 0m6s, 17% done, remaining walltime: 0m16s + t = 1800 ps, dt = 10 ps, |E| = 129.524385836 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 180 16 5.646e+04 0.02 0 0.338 83.3 1.86 46 14.5 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.457494718163) End Point: (0.01, 0.05, 0.04262434898) Pulse Start Point: (0.01, 0.05, -0.439507170683) End Point: (0.01, 0.05, 0.06061189646) Previous Window: [(0.01, 0.05, -0.590471888543) - (0.01, 0.05, 0.1096471786)] Current Window: [(0.01, 0.05, -0.539507170683) - (0.01, 0.05, 0.16061189646)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 1.86e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.02449389 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 9737 * Total Number of DOFs: 61328 *********************************************************** Time for setting up finite element framework: 0.040758092 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 61328 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 61328 stddev : 89.105181293421 min : 3664 max : 4016 average : 3833.0 } NonlocalelementsDistribution : { total : 20766 stddev : 227.62480093347 min : 878 max : 1666 average : 1297.875 } NonZeroDistribution : { total : 2430304 stddev : 3936.8492308782 min : 144592 max : 158324 average : 151894.0 } } /********************************/ setMatrices time: 0.154863298 writeMatrices time: 1.30349999381e-05 At t=1.86e-09, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 92.09 MB, max: 107.4 MB, avg: 97.52 MB, stddev: 3.788 MB, total: 1560 MB used mem per node in GB : min: 22.4 GB, max: 22.4 GB, avg: 22.4 GB, stddev: 0 GB, total: 22.4 GB used mem per node in % : min: 4.451 %, max: 4.451 %, avg: 4.451 %, stddev: 0 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 1.86e-09 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.006933 Initializing Port Mode Loading...ESNumerical2D: Solving for port modes Numerical port solution time: 0.1781 ABC Scaling Factor is 1 Using analytical solution at port boundary Done! -------------------------------------------------- BoundaryID: 4 Excitation: Power = 1 Pulse: Pulse type = GaussianPulse Frequency (Hz) = 5e+09 Bandwidth (Hz) = 2e+09 db at cutoff = 30 t0 (s) = 2.82 Phase (deg) = 0 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.01631 In Application::writeCheckPoint(): beginning checkpoint at t = 1.87e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.03208 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 190, after 0m6s, 18% done, remaining walltime: 0m51s + t = 1900 ps, dt = 10 ps, |E| = 126.803896037 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 190 16 6.133e+04 0.06376 54.2 0.102 26.3 0.584 18 18.8 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.427515472363) End Point: (0.01, 0.05, 0.07260359478) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 200, after 0m6s, 19% done, remaining walltime: 0m14s + t = 2000 ps, dt = 10 ps, |E| = 124.159845761 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 200 16 6.133e+04 0.01834 0 0.371 97.4 2.15 46 0.0747 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Dumping EM field volume monitor data into file t3p_results/OUTPUT/fieldts_t000000002000ps.out Pulse Start Point: (0.01, 0.05, -0.397536226563) End Point: (0.01, 0.05, 0.10258284058) Pulse Start Point: (0.01, 0.05, -0.388542452823) End Point: (0.01, 0.05, 0.11157661432) Previous Window: [(0.01, 0.05, -0.539507170683) - (0.01, 0.05, 0.16061189646)] Current Window: [(0.01, 0.05, -0.488542452823) - (0.01, 0.05, 0.21157661432)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 2.03e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.0251898240001 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 10370 * Total Number of DOFs: 65312 *********************************************************** Time for setting up finite element framework: 0.0450547579999 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 65312 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 65312 stddev : 104.53452380275 min : 3942 max : 4288 average : 4082.0 } NonlocalelementsDistribution : { total : 23288 stddev : 250.68599216284 min : 974 max : 1876 average : 1455.5 } NonZeroDistribution : { total : 2588448 stddev : 5318.3989570797 min : 154112 max : 170372 average : 161778.0 } } /********************************/ setMatrices time: 0.166706163 writeMatrices time: 1.15820000701e-05 At t=2.03e-09, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 96.32 MB, max: 108 MB, avg: 101.4 MB, stddev: 3.576 MB, total: 1622 MB used mem per node in GB : min: 22.46 GB, max: 22.46 GB, avg: 22.46 GB, stddev: 0 GB, total: 22.46 GB used mem per node in % : min: 4.463 %, max: 4.463 %, avg: 4.463 %, stddev: 9.173e-16 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 2.03e-09 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.00726 Initializing Port Mode Loading...ESNumerical2D: Solving for port modes Numerical port solution time: 0.247 ABC Scaling Factor is 1 Using analytical solution at port boundary Done! -------------------------------------------------- BoundaryID: 4 Excitation: Power = 1 Pulse: Pulse type = GaussianPulse Frequency (Hz) = 5e+09 Bandwidth (Hz) = 2e+09 db at cutoff = 30 t0 (s) = 2.82 Phase (deg) = 0 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.01347 In Application::writeCheckPoint(): beginning checkpoint at t = 2.04e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.03385 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 210, after 0m7s, 20% done, remaining walltime: 1m0s + t = 2100 ps, dt = 10 ps, |E| = 121.724997452 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 210 16 6.531e+04 0.07707 55.3 1.9 26 0.549 34 16.3 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.367556980763) End Point: (0.01, 0.05, 0.13256208638) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 220, after 0m7s, 22% done, remaining walltime: 0m16s + t = 2200 ps, dt = 10 ps, |E| = 119.134555447 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 220 16 6.531e+04 0.0206 0 0.323 97.5 2.08 49 0.0699 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.337577734963) End Point: (0.01, 0.05, 0.16254133218) Previous Window: [(0.01, 0.05, -0.488542452823) - (0.01, 0.05, 0.21157661432)] Current Window: [(0.01, 0.05, -0.437577734963) - (0.01, 0.05, 0.26254133218)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 2.2e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.027596361 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 10421 * Total Number of DOFs: 65710 *********************************************************** Time for setting up finite element framework: 0.039181549 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 65710 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 65710 stddev : 163.18491556105 min : 3866 max : 4324 average : 4106.875 } NonlocalelementsDistribution : { total : 23596 stddev : 252.33192425851 min : 1010 max : 1782 average : 1474.75 } NonZeroDistribution : { total : 2608764 stddev : 7674.6828077778 min : 149548 max : 173608 average : 163047.75 } } /********************************/ setMatrices time: 0.170663944 writeMatrices time: 1.33159999223e-05 At t=2.2e-09, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 98.26 MB, max: 112.1 MB, avg: 102.4 MB, stddev: 3.859 MB, total: 1638 MB used mem per node in GB : min: 22.47 GB, max: 22.47 GB, avg: 22.47 GB, stddev: 0 GB, total: 22.47 GB used mem per node in % : min: 4.466 %, max: 4.466 %, avg: 4.466 %, stddev: 0 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 2.2e-09 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.007586 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.006867 In Application::writeCheckPoint(): beginning checkpoint at t = 2.21e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.03342 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 230, after 0m8s, 23% done, remaining walltime: 0m39s + t = 2300 ps, dt = 10 ps, |E| = 116.189163082 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 230 16 6.571e+04 0.0508 35.5 0.121 40.7 0.859 48 22.8 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.307598489163) End Point: (0.01, 0.05, 0.19252057798) Pulse Start Point: (0.01, 0.05, -0.286613017103) End Point: (0.01, 0.05, 0.21350605004) Previous Window: [(0.01, 0.05, -0.437577734963) - (0.01, 0.05, 0.26254133218)] Current Window: [(0.01, 0.05, -0.386613017103) - (0.01, 0.05, 0.31350605004)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 2.37e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.0316119839999 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 10297 * Total Number of DOFs: 64938 *********************************************************** Time for setting up finite element framework: 0.0372229070001 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 64938 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 64938 stddev : 130.27912342352 min : 3728 max : 4192 average : 4058.625 } NonlocalelementsDistribution : { total : 23574 stddev : 227.80192419439 min : 1014 max : 1714 average : 1473.375 } NonZeroDistribution : { total : 2576740 stddev : 6512.3397075603 min : 148064 max : 167804 average : 161046.25 } } /********************************/ setMatrices time: 0.162308993 writeMatrices time: 1.35769998906e-05 At t=2.37e-09, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 98.67 MB, max: 114.3 MB, avg: 103.4 MB, stddev: 3.993 MB, total: 1654 MB used mem per node in GB : min: 22.49 GB, max: 22.49 GB, avg: 22.49 GB, stddev: 0 GB, total: 22.49 GB used mem per node in % : min: 4.469 %, max: 4.469 %, avg: 4.469 %, stddev: 9.173e-16 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 2.37e-09 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.007259 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.00792 In Application::writeCheckPoint(): beginning checkpoint at t = 2.38e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.03263 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 240, after 0m8s, 24% done, remaining walltime: 0m38s + t = 2400 ps, dt = 10 ps, |E| = 112.985308612 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 240 16 6.494e+04 0.05096 33.7 0.403 42 0.921 14 22.9 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.277619243363) End Point: (0.01, 0.05, 0.22249982378) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 250, after 0m9s, 25% done, remaining walltime: 0m14s + t = 2500 ps, dt = 10 ps, |E| = 109.780204426 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 250 16 6.494e+04 0.01988 0 0.311 97.5 2.06 49 0.0787 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Dumping EM field volume monitor data into file t3p_results/OUTPUT/fieldts_t000000002500ps.out Pulse Start Point: (0.01, 0.05, -0.247639997563) End Point: (0.01, 0.05, 0.25247906958) Pulse Start Point: (0.01, 0.05, -0.235648299243) End Point: (0.01, 0.05, 0.2644707679) Previous Window: [(0.01, 0.05, -0.386613017103) - (0.01, 0.05, 0.31350605004)] Current Window: [(0.01, 0.05, -0.335648299243) - (0.01, 0.05, 0.3644707679)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 2.54e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.029285462 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 10250 * Total Number of DOFs: 64640 *********************************************************** Time for setting up finite element framework: 0.0378433340002 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 64640 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 64640 stddev : 78.922747037847 min : 3826 max : 4196 average : 4040.0 } NonlocalelementsDistribution : { total : 22776 stddev : 220.33126574925 min : 980 max : 1704 average : 1423.5 } NonZeroDistribution : { total : 2563440 stddev : 4800.5078620218 min : 147612 max : 168388 average : 160215.0 } } /********************************/ setMatrices time: 0.166603745 writeMatrices time: 1.26249999539e-05 At t=2.54e-09, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 98.47 MB, max: 110.7 MB, avg: 103.5 MB, stddev: 3.395 MB, total: 1657 MB used mem per node in GB : min: 22.49 GB, max: 22.49 GB, avg: 22.49 GB, stddev: 0 GB, total: 22.49 GB used mem per node in % : min: 4.468 %, max: 4.468 %, avg: 4.468 %, stddev: 9.173e-16 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 2.54e-09 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.007128 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.007761 In Application::writeCheckPoint(): beginning checkpoint at t = 2.55e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.03385 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 260, after 0m9s, 26% done, remaining walltime: 0m37s + t = 2600 ps, dt = 10 ps, |E| = 106.677936075 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 260 16 6.464e+04 0.05115 34.4 2.88 39.1 0.848 28 22.8 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.217660751763) End Point: (0.01, 0.05, 0.28245831538) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 270, after 0m9s, 27% done, remaining walltime: 0m14s + t = 2700 ps, dt = 10 ps, |E| = 103.85987801 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 270 16 6.464e+04 0.01989 0 0.307 97.5 2.09 47 0.0775 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.187681505963) End Point: (0.01, 0.05, 0.31243756118) Pulse Start Point: (0.01, 0.05, -0.184683581383) End Point: (0.01, 0.05, 0.31543548576) Previous Window: [(0.01, 0.05, -0.335648299243) - (0.01, 0.05, 0.3644707679)] Current Window: [(0.01, 0.05, -0.284683581383) - (0.01, 0.05, 0.41543548576)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 2.71e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.0295430899998 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 10204 * Total Number of DOFs: 64346 *********************************************************** Time for setting up finite element framework: 0.0435932759999 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 64346 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 64346 stddev : 122.95087094717 min : 3668 max : 4154 average : 4021.625 } NonlocalelementsDistribution : { total : 23084 stddev : 322.32395711975 min : 826 max : 1872 average : 1442.75 } NonZeroDistribution : { total : 2550900 stddev : 6640.7612766409 min : 140420 max : 167080 average : 159431.25 } } /********************************/ setMatrices time: 0.170810037 writeMatrices time: 1.0470999996e-05 At t=2.71e-09, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 98.64 MB, max: 111.2 MB, avg: 104.9 MB, stddev: 4.329 MB, total: 1678 MB used mem per node in GB : min: 22.51 GB, max: 22.51 GB, avg: 22.51 GB, stddev: 0 GB, total: 22.51 GB used mem per node in % : min: 4.473 %, max: 4.473 %, avg: 4.473 %, stddev: 0 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 2.71e-09 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.0061 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.00796 In Application::writeCheckPoint(): beginning checkpoint at t = 2.72e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.03319 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 280, after 0m10s, 28% done, remaining walltime: 0m36s + t = 2800 ps, dt = 10 ps, |E| = 101.428645405 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 280 16 6.435e+04 0.05042 35.6 0.118 39.2 0.795 44 24.4 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.157702260163) End Point: (0.01, 0.05, 0.34241680698) Pulse Start Point: (0.01, 0.05, -0.133718863523) End Point: (0.01, 0.05, 0.36640020362) Previous Window: [(0.01, 0.05, -0.284683581383) - (0.01, 0.05, 0.41543548576)] Current Window: [(0.01, 0.05, -0.233718863523) - (0.01, 0.05, 0.46640020362)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 2.88e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.0287281560002 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 10189 * Total Number of DOFs: 64198 *********************************************************** Time for setting up finite element framework: 0.0378904660001 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 64198 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 64198 stddev : 150.69301023383 min : 3668 max : 4152 average : 4012.375 } NonlocalelementsDistribution : { total : 22104 stddev : 254.00944864316 min : 922 max : 1850 average : 1381.5 } NonZeroDistribution : { total : 2543780 stddev : 7357.4492636148 min : 144132 max : 166416 average : 158986.25 } } /********************************/ setMatrices time: 0.17164562 writeMatrices time: 1.35360000968e-05 At t=2.88e-09, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 99.11 MB, max: 116.7 MB, avg: 106.6 MB, stddev: 4.9 MB, total: 1706 MB used mem per node in GB : min: 22.54 GB, max: 22.54 GB, avg: 22.54 GB, stddev: 0 GB, total: 22.54 GB used mem per node in % : min: 4.478 %, max: 4.478 %, avg: 4.478 %, stddev: 9.173e-16 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 2.88e-09 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.006815 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.00818 In Application::writeCheckPoint(): beginning checkpoint at t = 2.89e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.03339 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 290, after 0m10s, 29% done, remaining walltime: 0m35s + t = 2900 ps, dt = 10 ps, |E| = 99.2633393747 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 290 16 6.42e+04 0.05 36.1 0.27 39.6 0.836 9 23.1 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.127723014363) End Point: (0.01, 0.05, 0.37239605278) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 300, after 0m10s, 30% done, remaining walltime: 0m13s + t = 3000 ps, dt = 10 ps, |E| = 97.1988213059 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 300 16 6.42e+04 0.01904 0 0.31 97.5 2.14 47 0.0767 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Dumping EM field volume monitor data into file t3p_results/OUTPUT/fieldts_t000000003000ps.out Pulse Start Point: (0.01, 0.05, -0.0977437685634) End Point: (0.01, 0.05, 0.40237529858) Pulse Start Point: (0.01, 0.05, -0.0827541456634) End Point: (0.01, 0.05, 0.41736492148) Previous Window: [(0.01, 0.05, -0.233718863523) - (0.01, 0.05, 0.46640020362)] Current Window: [(0.01, 0.05, -0.182754145663) - (0.01, 0.05, 0.51736492148)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 3.05e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.026324535 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 9880 * Total Number of DOFs: 62262 *********************************************************** Time for setting up finite element framework: 0.0443958559999 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 62262 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 62262 stddev : 109.93263088516 min : 3674 max : 4050 average : 3891.375 } NonlocalelementsDistribution : { total : 21620 stddev : 255.95090675101 min : 792 max : 1834 average : 1351.25 } NonZeroDistribution : { total : 2464428 stddev : 5410.6976937668 min : 144860 max : 162028 average : 154026.75 } } /********************************/ setMatrices time: 0.162345645 writeMatrices time: 1.34459999117e-05 At t=3.05e-09, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 99.32 MB, max: 112.8 MB, avg: 105.6 MB, stddev: 4.448 MB, total: 1690 MB used mem per node in GB : min: 22.53 GB, max: 22.53 GB, avg: 22.53 GB, stddev: 0 GB, total: 22.53 GB used mem per node in % : min: 4.478 %, max: 4.478 %, avg: 4.478 %, stddev: 0 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 3.05e-09 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.006799 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.009754 In Application::writeCheckPoint(): beginning checkpoint at t = 3.06e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.03121 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 310, after 0m11s, 31% done, remaining walltime: 0m34s + t = 3100 ps, dt = 10 ps, |E| = 95.3970604831 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 310 16 6.226e+04 0.05027 34.1 2.92 38.3 0.821 24 23.9 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.0677645227634) End Point: (0.01, 0.05, 0.43235454438) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 320, after 0m11s, 32% done, remaining walltime: 0m13s + t = 3200 ps, dt = 10 ps, |E| = 94.3088212445 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 320 16 6.226e+04 0.01923 0 0.35 97.5 2.1 47 0.0593 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.0377852769634) End Point: (0.01, 0.05, 0.46233379018) Pulse Start Point: (0.01, 0.05, -0.0317894278034) End Point: (0.01, 0.05, 0.46832963934) Previous Window: [(0.01, 0.05, -0.182754145663) - (0.01, 0.05, 0.51736492148)] Current Window: [(0.01, 0.05, -0.131789427803) - (0.01, 0.05, 0.56832963934)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 3.22e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.027349014 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 14418 * Total Number of Elements used: 9180 * Total Number of DOFs: 57782 *********************************************************** Time for setting up finite element framework: 0.035181165 Loading is PortModeLoading Newmark-beta with Integrated-E timestepping scheme is used. ********************************* ** Total number of DOFs: 57782 ** ********************************* -------------------------------------------- Assembling Matrices... -------------------------------------------- /********************************/ /* input parameters, KVC syntax */ /********************************/ Matrix : { RowDistribution : { total : 57782 stddev : 99.190641359623 min : 3414 max : 3718 average : 3611.375 } NonlocalelementsDistribution : { total : 19968 stddev : 221.23531966363 min : 818 max : 1472 average : 1248.0 } NonZeroDistribution : { total : 2286028 stddev : 4906.5631624047 min : 133224 max : 148460 average : 142876.75 } } /********************************/ setMatrices time: 0.147506093 writeMatrices time: 1.15220000225e-05 At t=3.22e-09, assembling Newmark matrices for dt = 1e-11 s Memory usage: used mem per MPI process: min: 99.35 MB, max: 114.7 MB, avg: 105.5 MB, stddev: 4.488 MB, total: 1688 MB used mem per node in GB : min: 22.53 GB, max: 22.53 GB, avg: 22.53 GB, stddev: 0 GB, total: 22.53 GB used mem per node in % : min: 4.477 %, max: 4.477 %, avg: 4.477 %, stddev: 9.173e-16 % Time Stepping: Newmark beta = 0.25 time step = 0 time = 3.22e-09 tmax = 1e-08 dt = 1e-11 setupTimeStepping time: 0.006427 Will dump EM field volume snapshots every 500ps between 0ps and 10000ps Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Created monitor ..Monitor[0]: ------------------------------------------ Monitor Type FieldNodeVolume Name: field ------------------------------------------ Opened Monitor Type Power file 't3p_results/OUTPUT/inputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[1]: Created monitor ..Monitor[1]: Opened Monitor Type Power file 't3p_results/OUTPUT/outputPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[2]: Created monitor ..Monitor[2]: Opened Monitor Type Power file 't3p_results/OUTPUT/wallossPower.out' MON_SurfacePoynting::SetUp()...MON_Power::SetUp()...done. Created monitor ..Monitor[3]: Created monitor ..Monitor[3]: setMonitors time: 0.009923 In Application::writeCheckPoint(): beginning checkpoint at t = 3.23e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.03054 seconds ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 330, after 0m12s, 33% done, remaining walltime: 0m29s + t = 3300 ps, dt = 10 ps, |E| = 94.1171589124 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 330 16 5.778e+04 0.04397 35.5 0.15 38.3 0.852 36 25.2 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, -0.00780603116341) End Point: (0.01, 0.05, 0.49231303598) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 340, after 0m12s, 34% done, remaining walltime: 0m10s + t = 3400 ps, dt = 10 ps, |E| = 94.0119469798 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 340 16 5.778e+04 0.01625 0 0.351 97.4 2.14 46 0.0957 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.0221732146366) End Point: (0.01, 0.05, 0.52229228178) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 350, after 0m12s, 35% done, remaining walltime: 0m10s + t = 3500 ps, dt = 10 ps, |E| = 92.8640493942 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 350 16 5.778e+04 0.01627 0 0.35 97.4 2.17 46 0.097 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Dumping EM field volume monitor data into file t3p_results/OUTPUT/fieldts_t000000003500ps.out Pulse Start Point: (0.01, 0.05, 0.0521524604366) End Point: (0.01, 0.05, 0.55227152758) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 360, after 0m12s, 36% done, remaining walltime: 0m11s + t = 3600 ps, dt = 10 ps, |E| = 90.7097381785 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 360 16 5.778e+04 0.01757 0 8.7 90 2 46 0 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.0821317062366) End Point: (0.01, 0.05, 0.58225077338) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 370, after 0m12s, 37% done, remaining walltime: 0m10s + t = 3700 ps, dt = 10 ps, |E| = 88.7214289214 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 370 16 5.778e+04 0.01591 0 0.366 97.4 2.12 46 0.0991 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.112110952037) End Point: (0.01, 0.05, 0.61223001918) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 380, after 0m12s, 38% done, remaining walltime: 0m10s + t = 3800 ps, dt = 10 ps, |E| = 87.6587171178 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 380 16 5.778e+04 0.01747 0 0.39 97.3 2.22 46 0.0879 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.142090197837) End Point: (0.01, 0.05, 0.64220926498) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 390, after 0m13s, 39% done, remaining walltime: 0m10s + t = 3900 ps, dt = 10 ps, |E| = 87.2278393982 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 390 16 5.778e+04 0.01674 0 0.37 97.3 2.21 46 0.0722 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.172069443637) End Point: (0.01, 0.05, 0.67218851078) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 400, after 0m13s, 40% done, remaining walltime: 0m10s + t = 4000 ps, dt = 10 ps, |E| = 86.4804714975 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 400 16 5.778e+04 0.01685 0 0.361 97.3 2.22 46 0.0873 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Dumping EM field volume monitor data into file t3p_results/OUTPUT/fieldts_t000000004000ps.out Pulse Start Point: (0.01, 0.05, 0.202048689437) End Point: (0.01, 0.05, 0.70216775658) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 410, after 0m13s, 41% done, remaining walltime: 0m11s + t = 4100 ps, dt = 10 ps, |E| = 83.7037411792 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 410 16 5.778e+04 0.01872 0 8.98 88.6 1.94 46 0.497 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.232027935237) End Point: (0.01, 0.05, 0.73214700238) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 420, after 0m13s, 42% done, remaining walltime: 0m9s + t = 4200 ps, dt = 10 ps, |E| = 76.6230297523 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 420 16 5.778e+04 0.01645 0 0.405 97.3 2.16 45 0.0913 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.262007181037) End Point: (0.01, 0.05, 0.76212624818) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 430, after 0m13s, 43% done, remaining walltime: 0m9s + t = 4300 ps, dt = 10 ps, |E| = 64.1459568394 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 430 16 5.778e+04 0.01707 0 0.376 97.3 2.18 45 0.0933 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.291986426837) End Point: (0.01, 0.05, 0.79210549398) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 440, after 0m13s, 44% done, remaining walltime: 0m9s + t = 4400 ps, dt = 10 ps, |E| = 48.2078443816 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 440 16 5.778e+04 0.01639 0 0.388 97.3 2.26 45 0.0886 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.321965672637) End Point: (0.01, 0.05, 0.82208473978) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 450, after 0m14s, 45% done, remaining walltime: 0m9s + t = 4500 ps, dt = 10 ps, |E| = 33.2844204568 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 450 16 5.778e+04 0.01754 0 0.347 97.3 2.28 45 0.0887 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Dumping EM field volume monitor data into file t3p_results/OUTPUT/fieldts_t000000004500ps.out Pulse Start Point: (0.01, 0.05, 0.351944918437) End Point: (0.01, 0.05, 0.85206398558) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 460, after 0m14s, 46% done, remaining walltime: 0m10s + t = 4600 ps, dt = 10 ps, |E| = 23.135216671 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 460 16 5.778e+04 0.01858 0 10 87.9 1.94 45 0.0839 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.381924164237) End Point: (0.01, 0.05, 0.88204323138) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 470, after 0m14s, 47% done, remaining walltime: 0m9s + t = 4700 ps, dt = 10 ps, |E| = 17.5665723046 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 470 16 5.778e+04 0.01741 0 1.12 97.3 2.24 45 0 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.411903410037) End Point: (0.01, 0.05, 0.91202247718) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 480, after 0m14s, 48% done, remaining walltime: 0m8s + t = 4800 ps, dt = 10 ps, |E| = 13.9117492484 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 480 16 5.778e+04 0.01664 0 0.365 97.2 2.3 45 0.136 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.441882655837) End Point: (0.01, 0.05, 0.94200172298) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 490, after 0m14s, 48% done, remaining walltime: 0m7s + t = 4900 ps, dt = 10 ps, |E| = 10.7763314304 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 490 16 5.778e+04 0.01564 0 0.377 97.3 2.21 45 0.158 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.471861901637) End Point: (0.01, 0.05, 0.97198096878) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 500, after 0m14s, 49% done, remaining walltime: 0m7s + t = 5000 ps, dt = 10 ps, |E| = 8.11562134984 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 500 16 5.778e+04 0.01539 0 0.415 97.2 2.26 44 0.147 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Dumping EM field volume monitor data into file t3p_results/OUTPUT/fieldts_t000000005000ps.out Pulse Start Point: (0.01, 0.05, 0.501841147437) End Point: (0.01, 0.05, 1.00196021458) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 510, after 0m15s, 50% done, remaining walltime: 0m8s + t = 5100 ps, dt = 10 ps, |E| = 6.14762319186 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 510 16 5.778e+04 0.01774 0 9.44 88.4 2.03 44 0.103 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.531820393237) End Point: (0.01, 0.05, 1.03193946038) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 520, after 0m15s, 51% done, remaining walltime: 0m7s + t = 5200 ps, dt = 10 ps, |E| = 4.91015099083 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 520 16 5.778e+04 0.01559 0 0.394 97.3 2.23 43 0.1 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.561799639037) End Point: (0.01, 0.05, 1.06191870618) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 530, after 0m15s, 52% done, remaining walltime: 0m7s + t = 5300 ps, dt = 10 ps, |E| = 4.11441401506 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 530 16 5.778e+04 0.01525 0 1.21 97.3 2.25 43 0 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.591778884837) End Point: (0.01, 0.05, 1.09189795198) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 540, after 0m15s, 53% done, remaining walltime: 0m6s + t = 5400 ps, dt = 10 ps, |E| = 3.60901053396 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 540 16 5.778e+04 0.01482 0 0.389 97.2 2.31 43 0.0928 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.621758130637) End Point: (0.01, 0.05, 1.12187719778) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 550, after 0m15s, 54% done, remaining walltime: 0m6s + t = 5500 ps, dt = 10 ps, |E| = 3.47122793574 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 550 16 5.778e+04 0.01499 0 0.383 97.2 2.29 43 0.0918 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Dumping EM field volume monitor data into file t3p_results/OUTPUT/fieldts_t000000005500ps.out Pulse Start Point: (0.01, 0.05, 0.651737376437) End Point: (0.01, 0.05, 1.15185644358) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 560, after 0m15s, 55% done, remaining walltime: 0m7s + t = 5600 ps, dt = 10 ps, |E| = 3.53045882784 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 560 16 5.778e+04 0.01743 0 9.32 88.5 2.08 43 0.102 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.681716622237) End Point: (0.01, 0.05, 1.18183568938) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 570, after 0m16s, 56% done, remaining walltime: 0m6s + t = 5700 ps, dt = 10 ps, |E| = 3.4910846625 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 570 16 5.778e+04 0.01523 0 0.385 97.2 2.29 43 0.0968 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.711695868037) End Point: (0.01, 0.05, 1.21181493518) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 580, after 0m16s, 57% done, remaining walltime: 0m6s + t = 5800 ps, dt = 10 ps, |E| = 3.38996434014 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 580 16 5.778e+04 0.01479 0 0.381 97.2 2.28 43 0.102 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.741675113837) End Point: (0.01, 0.05, 1.24179418098) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 590, after 0m16s, 58% done, remaining walltime: 0m6s + t = 5900 ps, dt = 10 ps, |E| = 3.32742597394 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 590 16 5.778e+04 0.01614 0 0.373 97.2 2.37 42 0.1 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.771654359637) End Point: (0.01, 0.05, 1.27177342678) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 600, after 0m16s, 59% done, remaining walltime: 0m6s + t = 6000 ps, dt = 10 ps, |E| = 3.16846681192 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 600 16 5.778e+04 0.01567 0 0.954 97.2 2.29 42 0 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Dumping EM field volume monitor data into file t3p_results/OUTPUT/fieldts_t000000006000ps.out Pulse Start Point: (0.01, 0.05, 0.801633605437) End Point: (0.01, 0.05, 1.30175267258) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 610, after 0m16s, 60% done, remaining walltime: 0m6s + t = 6100 ps, dt = 10 ps, |E| = 2.97126782852 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 610 16 5.778e+04 0.01714 0 9.67 88.1 2.11 42 0.0958 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.831612851237) End Point: (0.01, 0.05, 1.33173191838) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 620, after 0m16s, 61% done, remaining walltime: 0m5s + t = 6200 ps, dt = 10 ps, |E| = 2.87612572958 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 620 16 5.778e+04 0.01495 0 0.439 97.1 2.35 42 0.0984 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.861592097037) End Point: (0.01, 0.05, 1.36171116418) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 630, after 0m17s, 62% done, remaining walltime: 0m6s + t = 6300 ps, dt = 10 ps, |E| = 2.84789175551 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 630 16 5.778e+04 0.01637 0 0.376 97 2.51 41 0.0968 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.891571342837) End Point: (0.01, 0.05, 1.39169040998) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 640, after 0m17s, 63% done, remaining walltime: 0m5s + t = 6400 ps, dt = 10 ps, |E| = 2.74680036874 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 640 16 5.778e+04 0.01459 0 0.419 97.1 2.39 41 0.101 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.921550588637) End Point: (0.01, 0.05, 1.42166965578) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 650, after 0m17s, 64% done, remaining walltime: 0m5s + t = 6500 ps, dt = 10 ps, |E| = 2.76097728677 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 650 16 5.778e+04 0.01549 0 0.397 97.1 2.4 41 0.102 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Dumping EM field volume monitor data into file t3p_results/OUTPUT/fieldts_t000000006500ps.out Pulse Start Point: (0.01, 0.05, 0.951529834437) End Point: (0.01, 0.05, 1.45164890158) ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ + Step: 660, after 0m17s, 65% done, remaining walltime: 0m5s + t = 6600 ps, dt = 10 ps, |E| = 2.87405281054 + step #CPUs #DOFs time/step mesh% mon% solve% rhs% niters other% + P 660 16 5.778e+04 0.01692 0 10.2 88.3 2.13 41 0 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ Pulse Start Point: (0.01, 0.05, 0.981509080237) End Point: (0.01, 0.05, 1.48162814738) Pulse Start Point: (0.01, 0.05, 1.0024945523) End Point: (0.01, 0.05, 1.50261361944) Previous Window: [(0.01, 0.05, -0.131789427803) - (0.01, 0.05, 0.56832963934)] Current Window: [(0.01, 0.05, 0.902494552297) - (0.01, 0.05, 1.60261361944)] Doing p-refinement In Application::writeCheckPoint(): beginning checkpoint at t = 6.67e-09 In Application::writeCheckPoint(): finishing checkpoint after 0.0263170910002 seconds Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=0 Setting 'AutomaticMovingWindow' PRegion basis order to p=2 The total number of elements in the computation is 0. Finishing ...