************************************************************* S3P ACE3P Codes Source Date: Mon Mar 6 23:26:49 2023 -0800 ACE3P Codes Source Branch: master ACE3P Codes Source Tag: 503652f41066a31de4a9b7088dd1fd7572ada43a Support Lib Source Date: Fri Dec 2 09:43:53 2022 -0800 Support Lib Source Branch: master Support Lib Source Tag: 2f7bd8bf8ec6eb3646dc05e32622a4475531a105 Compilation Date: Mon 06 Mar 2023 11:38:55 PM PST ************************************************************* Copyright 2023, Stanford University Authors make no representations or warranties, expressed or implied. By way of example, but not limitation, authors make no representatinos or warranties of merchantibility or fitness for any particular purpose or that the use of the software componentns of documentation will not infringe any patents, copyrights, trademarks or other rights. The Authors shall not be held liable for any liability nor for any direct, indirect or consequential damages with respect to any claim by users or any third party on account of or arising from the use of this software. ************************************************************* Advanced Computations Department SLAC National Accelerator Laboratory https://slacportal.slac.stanford.edu/sites/ard_public/acd/Pages/Default.aspx Contact: ace3p@slac.stanford.edu Thank you for citing ACE3P when publishing related results. ************************************************************* Starting master process on nid004422 Number of MPI processes: 128 Number of compute nodes: 1 Number of processes per node: 128 Data precision: 64 bits Compiler: 11.2.0 20210728 (Cray Inc.) Boundary conditions: 0 = INTERIOR 1 = IMPEDANCE 2 = MAGNETIC 3 = MAGNETIC 4 = WAVEGUIDE 5 = WAVEGUIDE Material 1 has the following properties: Eps_r: (9, -0.0009) Mu_r: (1, 0) Sigma: 0 Boundary 1 has surface conductivity of 5.7e+07 S/m Surface impedance model Metal properties: Epsilon = 1 MU = 1 Sigma = 5.7e+07 Frequency = 1e+09 Read Mesh: /pscratch/sd/l/liling/cw23/tem3p/SrfCoupler/2D-TTF3-FPC-Vacuum.ncdf Time for reading the model: 0.0430083 Using curved quadratic tetrahedrons Setting global vector finite element basis order to p=2 Partitioning Method: parmetis *********************************************************** * Total Number of Elements read: 139754 * Total Number of Elements used: 139754 * Total Number of DOFs: 968476 *********************************************************** Time for setting up finite element framework: 0.250318 /********************************/ /* input parameters, KVC syntax */ /********************************/ Mesh : { ReplicatedElementDistribution : { average : 604.25 stddev : 301.48963497938 min : 85 max : 1571 total : 77344 } ElementDistribution : { average : 1091.828125 stddev : 27.201814834951 min : 914 max : 1137 total : 139754 } File : /pscratch/sd/l/liling/cw23/tem3p/SrfCoupler/2D-TTF3-FPC-Vacuum.ncdf MeshCoords : 32081 } /********************************/ Checking Mesh Quality: TETRAHEDRAL ELEMENTS: number = 139754 INVERTED SECOND-ORDER ELEMENTS: number = 0 <- GOOD! ASPECT RATIO: min = 1.02098 max = 21.8139 <- WARNING average = 1.59691 std dev = 0.439985 SHAPE MEASURE: min = 0.00141074 <- WARNING max = 1.44152 average = 0.813522 std dev = 0.127058 ELEMENT VOLUME: min = 2.83777e-12 max = 2.02203e-08 average = 6.54132e-10 std dev = 1.82823e-09 BOUNDING BOX: min = (-0.5867, 0.00577425, -3.12445e-17) max = (-0.025, 0.057, 0.021813) EDGE LENGTH: min = 0.0001 max = 0.0071349 average = 0.00122426 std dev = 0.0010002 Time for checking the mesh quality: 0.0187707 ESNumerical2D: Solving for port modes Numerical port solution time: 0.105597 ESNumerical2D: Solving for port modes Numerical port solution time: 0.070764 ESNumerical2D: Solving for port modes Numerical port solution time: 0.0542821 ESNumerical2D: Solving for port modes Numerical port solution time: 0.0391182 factorizing the matrix using MUMPS... Use 32 processors to do parallel reordering (ParMetis) Partition of Processors: 0 4 8 12 16 20 24 28 32 36 40 44 48 52 56 60 64 68 72 76 80 84 88 92 96 100 104 108 112 116 120 124 128 Processor 0: 0, 30950 Processor 1: 30950, 61436 Processor 2: 61436, 92152 Processor 3: 92152, 122584 Processor 4: 122584, 153362 Processor 5: 153362, 182578 Processor 6: 182578, 213008 Processor 7: 213008, 243548 Processor 8: 243548, 273732 Processor 9: 273732, 303528 Processor 10: 303528, 333664 Processor 11: 333664, 363766 Processor 12: 363766, 394048 Processor 13: 394048, 424324 Processor 14: 424324, 454746 Processor 15: 454746, 484878 Processor 16: 484878, 514436 Processor 17: 514436, 543686 Processor 18: 543686, 573710 Processor 19: 573710, 603574 Processor 20: 603574, 634482 Processor 21: 634482, 664904 Processor 22: 664904, 694562 Processor 23: 694562, 725298 Processor 24: 725298, 755800 Processor 25: 755800, 786060 Processor 26: 786060, 816836 Processor 27: 816836, 847534 Processor 28: 847534, 877850 Processor 29: 877850, 907894 Processor 30: 907894, 937728 Processor 31: 937728, 968476 total: 968476 32 Generate ordering using parmetis... Finished generating ordering using parmetis Memory usage: used mem per MPI process: min: 222.1 MB, max: 340.9 MB, avg: 261.4 MB, stddev: 21.19 MB, total: 3.345e+04 MB used mem per node in GB : min: 54.72 GB, max: 54.72 GB, avg: 54.72 GB, stddev: 0 GB, total: 54.72 GB used mem per node in % : min: 10.87 %, max: 10.87 %, avg: 10.87 %, stddev: 7.133e-15 % S3P results for Frequency: 1.3e+09 Hz ************************************** Index mapping: # 0 : Port 4, Mode 0, Type: TEM (cutoff: 0 Hz) # 1 : Port 5, Mode 0, Type: TEM (cutoff: 0 Hz) Frequency[Hz] S(0,0) S(0,1) S(1,0) S(1,1) 1.30000000e+09 9.83622408e-02 9.93681603e-01 9.93681603e-01 9.82094619e-02 Computed Total Energy (normalized by Epsilon0/2): (474.38111,-0.0016598072). Q from energy: 142902.48 Writing mode file s3p_results/mode.port4.mode0.f1.300000000E+09.mod Computed Total Energy (normalized by Epsilon0/2): (478.13778,-0.0019530658). Q from energy: 122406.98