Starting program Elmergrid Elmergrid reading in-line arguments Using dual (elemental) graph in partitioning. The mesh will be partitioned with Metis to 64 partitions. Output will be saved to file C:/ElmerFEM-gui-mpi-Windows-AMD64/tutorials-GUI-files/AcousticWaves. Elmergrid loading data: ----------------------- Loading mesh in ElmerSolver format from directory C:/ElmerFEM-gui-mpi-Windows-AMD64/tutorials-GUI-files/AcousticWaves. Loading header from mesh.header Maximum elementtype index is: 408 Maximum number of nodes in element is: 8 Allocating for 30605 knots and 10050 elements. Loading 30605 Elmer nodes from mesh.nodes Loading 10050 bulk elements from mesh.elements Loading 454 boundary elements from mesh.boundary Elmer mesh loaded successfully Elmergrid creating and manipulating meshes: ------------------------------------------- Coordinates defined in 2 dimensions Elmergrid partitioning meshes: ------------------------------ Making a Metis partitioning for 30605 nodes in 2-dimensions. Setting default Metis options! Setting user defined Metis options! Creating a dual graph of the finite element mesh Creating an inverse topology of the finite element mesh There are from 1 to 4 connections in the inverse topology. Each node is in average in 2.627 elements Removing connected nodes from the dual graph List of unconnected elements created There are at maximum 8 connections in dual graph (in element 77). There are at all in all 79046 connections in dual graph. Average connection per active element in dual graph is 7.865 There are 79046 connections altogether in the graph. Starting graph partitioning METIS_PartGraphKway. Runtime parameters: Objective type: METIS_OBJTYPE_CUT Coarsening type: METIS_CTYPE_SHEM Initial partitioning type: METIS_IPTYPE_METISRB Refinement type: METIS_RTYPE_GREEDY Perform a 2-hop matching: No Number of balancing constraints: 1 Number of refinement iterations: 10 Random number seed: -1 Number of partitions: 64 Number of cuts: 1 User-supplied ufactor: 30 Minimize connectivity: No Create contigous partitions: No Target partition weights: 0=[1.56e-02] 1=[1.56e-02] 2=[1.56e-02] 3=[1.56e-02] 4=[1.56e-02] 5=[1.56e-02] 6=[1.56e-02] 7=[1.56e-02] 8=[1.56e-02] 9=[1.56e-02] 10=[1.56e-02] 11=[1.56e-02] 12=[1.56e-02] 13=[1.56e-02] 14=[1.56e-02] 15=[1.56e-02] 16=[1.56e-02] 17=[1.56e-02] 18=[1.56e-02] 19=[1.56e-02] 20=[1.56e-02] 21=[1.56e-02] 22=[1.56e-02] 23=[1.56e-02] 24=[1.56e-02] 25=[1.56e-02] 26=[1.56e-02] 27=[1.56e-02] 28=[1.56e-02] 29=[1.56e-02] 30=[1.56e-02] 31=[1.56e-02] 32=[1.56e-02] 33=[1.56e-02] 34=[1.56e-02] 35=[1.56e-02] 36=[1.56e-02] 37=[1.56e-02] 38=[1.56e-02] 39=[1.56e-02] 40=[1.56e-02] 41=[1.56e-02] 42=[1.56e-02] 43=[1.56e-02] 44=[1.56e-02] 45=[1.56e-02] 46=[1.56e-02] 47=[1.56e-02] 48=[1.56e-02] 49=[1.56e-02] 50=[1.56e-02] 51=[1.56e-02] 52=[1.56e-02] 53=[1.56e-02] 54=[1.56e-02] 55=[1.56e-02] 56=[1.56e-02] 57=[1.56e-02] 58=[1.56e-02] 59=[1.56e-02] 60=[1.56e-02] 61=[1.56e-02] 62=[1.56e-02] 63=[1.56e-02] Allowed maximum load imbalance: 1.030 gk_mcore statistics coresize: 163416 nmops: 2048 cmop: 0 num_callocs: 21 num_hallocs: 0 size_callocs: 278976 size_hallocs: 0 cur_callocs: 0 cur_hallocs: 0 max_callocs: 94400 max_hallocs: 0 nbrpool statistics nbrpoolsize: 0 nbrpoolcpos: 0 nbrpoolreallocs: 0 Timing Information ------------------------------------------------- Multilevel: 0.047 Coarsening: 0.000 Matching: 0.000 Contract: 0.000 Initial Partition: 0.047 Uncoarsening: 0.000 Refinement: 0.000 Projection: 0.000 Splitting: 0.000 **************************************************************** **** gk_mcore statistics coresize: 163416 nmops: 2048 cmop: 0 num_callocs: 60 num_hallocs: 0 size_callocs: 492960 size_hallocs: 0 cur_callocs: 0 cur_hallocs: 0 max_callocs: 161824 max_hallocs: 0 nbrpool statistics nbrpoolsize: 44652 nbrpoolcpos: 41006 nbrpoolreallocs: 1 Finished Metis graph partitioning call. Number of nodal partitions: 64 Set the node partitions by the dominating element partition. There are from 847 to 983 nodes in the 64 partitions. Successfully made a Metis partition using the dual graph. Optimizing the partitioning at boundaries. Ownership of 0 parents was changed at BCs Optimizing for 64 partitions Creating a table showing all parenting partitions of nodes. Nodes belong to 3 partitions in maximum There are 3352 shared nodes which is 10.95 % of all nodes. The initial owner was not any of the elements for 0 nodes Checking partitioning before optimization Checking for partitioning Information on partition bandwidth Average 157 elements with range 9 in partition Average 478 nodes with range 50 in partition Average 53 shared nodes with range 43 in partition Average number of elements in partition 4.782e+02 Maximum deviation in ownership 50 Average deviation in ownership 9.257e+00 Average relative deviation 1.94 % Checking for problematic sharings Optimizing sharing for 64 partitions There shouldn't be any problematic sharings, knock, knock... Partitioning was not altered Partitioning routines finished! Elmergrid saving data with method 2: ------------------------------------- Saving Elmer mesh in partitioned format Number of boundary nodes at the boundary: 908 Number of additional interface nodes: 0 Created mesh directory: C:/ElmerFEM-gui-mpi-Windows-AMD64/tutorials-GUI-files/AcousticWaves Reusing existing subdirectory: partitioning.64 Saving mesh in parallel ElmerSolver format to directory C:/ElmerFEM-gui-mpi-Windows-AMD64/tutorials-GUI-files/AcousticWaves/partitioning.64. Nodes belong to 3 partitions in maximum Saving mesh for 64 partitions part elements nodes shared bc elems 1 160 477 70 0 2 159 495 45 17 3 153 471 45 12 4 154 488 27 26 5 157 470 60 0 6 156 466 67 0 7 154 470 57 6 8 156 484 41 16 9 154 470 45 10 10 161 496 52 13 11 155 490 34 24 12 154 488 27 26 13 158 481 54 7 14 161 482 60 0 15 159 476 66 0 16 152 456 59 0 17 157 469 63 0 18 157 471 61 0 19 157 483 47 11 20 161 493 51 9 21 157 470 62 0 22 153 474 42 14 23 156 492 35 24 24 153 473 37 13 25 161 482 66 0 26 159 488 48 12 27 152 473 38 17 28 159 477 61 0 29 161 483 67 0 30 157 472 62 0 31 158 474 63 0 32 161 485 67 0 33 161 491 53 9 34 153 468 52 9 35 160 478 65 0 36 159 476 62 0 37 155 465 69 0 38 158 473 64 0 39 158 481 54 6 40 156 471 60 0 41 160 478 63 0 42 157 484 42 12 43 152 482 27 26 44 160 491 46 11 45 160 480 65 0 46 157 472 60 0 47 154 476 41 14 48 155 472 58 7 49 161 484 64 0 50 158 474 67 0 51 159 477 63 0 52 159 478 64 0 53 155 464 64 0 54 156 481 44 12 55 157 480 50 8 56 156 479 46 10 57 156 481 42 14 58 155 471 61 7 59 161 485 65 0 60 156 468 63 0 61 152 456 67 0 62 155 477 45 11 63 158 487 50 12 64 159 506 30 29 ---------------------------------------------------------------------------------------------- ave 157.0 478.2 53.8 7.1 0.0 Writing of partitioned mesh finished Thank you for using Elmergrid! Send bug reports and feature wishes to elmeradm@csc.fi ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:33 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:33 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:33 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:33 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:33 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:33 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:33 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:33 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 No parameters width suffix: normalize by volume ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 ElmerAsciiMesh: Base mesh name: ./. LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif ElmerAsciiMesh: Base mesh name: ./. ELMER SOLVER (v 9.0) STARTED AT: 2022/07/29 22:35:34 LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ParCommInit: Initialize #PEs: 1 ElmerAsciiMesh: Base mesh name: ./. LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ElmerAsciiMesh: Base mesh name: ./. ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif ElmerAsciiMesh: Base mesh name: ./. LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif ElmerAsciiMesh: Base mesh name: ./. LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume ElmerAsciiMesh: Base mesh name: ./. LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: ElmerAsciiMesh: Base mesh name: ./. Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ParCommInit: Initialize #PEs: 1 MAIN: MAIN: ============================================================= MAIN: ElmerSolver finite element software, Welcome! MAIN: This program is free software licensed under (L)GPL MAIN: Copyright 1st April 1995 - , CSC - IT Center for Science Ltd. MAIN: Webpage http://www.csc.fi/elmer, Email elmeradm@csc.fi MAIN: Version: 9.0 (Rev: Release, Compiled: 2022-07-28) MAIN: Running one task without MPI parallelization. MAIN: Running with just one thread per task. MAIN: Lua interpreter linked in. MAIN: ============================================================= ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume ElmerAsciiMesh: Base mesh name: ./. MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif ElmerAsciiMesh: Base mesh name: ./. LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume ElmerAsciiMesh: Base mesh name: ./. MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume ElmerAsciiMesh: Base mesh name: ./. MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume ElmerAsciiMesh: Base mesh name: ./. ElmerAsciiMesh: Base mesh name: ./. MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume ElmerAsciiMesh: Base mesh name: ./. MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file ElmerAsciiMesh: Base mesh name: ./. LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume ElmerAsciiMesh: Base mesh name: ./. MAIN: MAIN: MAIN: ------------------------------------- MAIN: Reading Model: case.sif LoadInputFile: Scanning input file: case.sif LoadInputFile: Scanning only size info LoadInputFile: First time visiting LoadInputFile: Reading base load of sif file LoadInputFile: Loading input file: case.sif LoadInputFile: Reading base load of sif file LoadInputFile: Number of BCs: 3 LoadInputFile: Number of Body Forces: 0 LoadInputFile: Number of Initial Conditions: 0 LoadInputFile: Number of Materials: 1 LoadInputFile: Number of Equations: 1 LoadInputFile: Number of Solvers: 1 LoadInputFile: Number of Bodies: 1 ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by area ListTagKeywords: Setting weight for keywords! ListTagKeywords: No parameters width suffix: normalize by volume ElmerAsciiMesh: Base mesh name: ./. LoadMesh: Elapsed REAL time: 0.1560 (s) LoadMesh: Elapsed REAL time: 0.1560 (s) LoadMesh: Elapsed REAL time: 0.1560 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1560 (s) LoadMesh: Elapsed REAL time: 0.1570 (s) LoadMesh: Elapsed REAL time: 0.1560 (s) LoadMesh: Elapsed REAL time: 0.1570 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1870 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1870 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1710 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1880 (s) LoadMesh: Elapsed REAL time: 0.1710 (s) LoadMesh: Elapsed REAL time: 0.2040 (s) LoadMesh: Elapsed REAL time: 0.1880 (s) LoadMesh: Elapsed REAL time: 0.1880 (s) LoadMesh: Elapsed REAL time: 0.1870 (s) LoadMesh: Elapsed REAL time: 0.1870 (s) LoadMesh: Elapsed REAL time: 0.1870 (s) LoadMesh: Elapsed REAL time: 0.1880 (s) LoadMesh: Elapsed REAL time: 0.1880 (s) LoadMesh: Elapsed REAL time: 0.1880 (s) LoadMesh: Elapsed REAL time: 0.1880 (s) LoadMesh: Elapsed REAL time: 0.1870 (s) LoadMesh: Elapsed REAL time: 0.1880 (s) LoadMesh: Elapsed REAL time: 0.1870 (s) LoadMesh: Elapsed REAL time: 0.1870 (s) LoadMesh: Elapsed REAL time: 0.1870 (s) LoadMesh: Elapsed REAL time: 0.1880 (s) LoadMesh: Elapsed REAL time: 0.1870 (s) LoadMesh: Elapsed REAL time: 0.2030 (s) LoadMesh: Elapsed REAL time: 0.2030 (s) LoadMesh: Elapsed REAL time: 0.2040 (s) LoadMesh: Elapsed REAL time: 0.2030 (s) LoadMesh: Elapsed REAL time: 0.1870 (s) LoadMesh: Elapsed REAL time: 0.2030 (s) LoadMesh: Elapsed REAL time: 0.2030 (s) LoadMesh: Elapsed REAL time: 0.2030 (s) LoadMesh: Elapsed REAL time: 0.2030 (s) LoadMesh: Elapsed REAL time: 0.2040 (s) LoadMesh: Elapsed REAL time: 0.2030 (s) LoadMesh: Elapsed REAL time: 0.1870 (s) LoadMesh: Elapsed REAL time: 0.1870 (s) LoadMesh: Elapsed REAL time: 0.1870 (s) LoadMesh: Elapsed REAL time: 0.1880 (s) LoadMesh: Elapsed REAL time: 0.1880 (s) LoadMesh: Elapsed REAL time: 0.1880 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1880 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) LoadMesh: Elapsed REAL time: 0.1720 (s) MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...MAIN: ------------------------------------- OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...--------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. MAIN: ------------------------------------- OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: done. OptimizeBandwidth: Bandwidth Optimization ...OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...MAIN: ------------------------------------- done. AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. MAIN: ------------------------------------- AddVtuOutputSolverHack: OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...Adding ResultOutputSolver to write VTU output in file: case done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...HelmholtzSolve: Assembly: MAIN: ------------------------------------- AddVtuOutputSolverHack: done. Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...OptimizeBandwidth: Computing matrix structure for: helmholtz equation...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: done. Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: OptimizeBandwidth: --------------------------------------------------------- Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: --------------------------------------------------------- HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- HelmholtzSolve: Assembly: done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. done. OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- HelmholtzSolve: Assembly: done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Assembly: MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case MAIN: ------------------------------------- AddVtuOutputSolverHack: Adding ResultOutputSolver to write VTU output in file: case HelmholtzSolve: Starting Assembly done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- HelmholtzSolve: Assembly: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 OptimizeBandwidth: --------------------------------------------------------- HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly OptimizeBandwidth: --------------------------------------------------------- OptimizeBandwidth: Computing matrix structure for: helmholtz equation...done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- ElmerSolver: Number of timesteps to be saved: 1 HelmholtzSolve: Assembly: MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: Assembly: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- HelmholtzSolve: HelmholtzSolve: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 HelmholtzSolve: Assembly: MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 done. MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- OptimizeBandwidth: --------------------------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: Assembly: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 MAIN: Steady state iteration: 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Assembly: HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- HelmholtzSolve: Assembly: MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- Starting Assembly MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: Assembly: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Assembly: HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: HelmholtzSolve: Assembly: done. OptimizeBandwidth: Half bandwidth without optimization: 305 OptimizeBandwidth: OptimizeBandwidth: Bandwidth Optimization ...HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: HelmholtzSolve: Assembly: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ------------------------------------- HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Starting Assembly HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Assembly: HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 ElmerSolver: Number of timesteps to be saved: 1 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 MAIN: MAIN: HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: ------------------------------------- HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: MAIN: HelmholtzSolve: Assembly: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly Helmholtz iteration 1 HelmholtzSolve: Assembly: HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: HelmholtzSolve: Assembly: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- ElmerSolver: Number of timesteps to be saved: 1 MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- HelmholtzSolve: Assembly: MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: Assembly: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly done HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: Assembly done HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: done. OptimizeBandwidth: Half bandwidth after optimization: 452 OptimizeBandwidth: Bandwidth optimization rejected, using original ordering. OptimizeBandwidth: --------------------------------------------------------- HelmholtzSolve: Assembly: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly done HelmholtzSolve: Assembly: ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done ElmerSolver: Number of timesteps to be saved: 1 MAIN: MAIN: ------------------------------------- MAIN: Steady state iteration: 1 MAIN: ------------------------------------- MAIN: HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 1 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done ERROR:: ComplexBandSolver: Memory allocation error. HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done ERROR:: ComplexBandSolver: Memory allocation error. ERROR:: ComplexBandSolver: Memory allocation error. ERROR:: ComplexBandSolver: Memory allocation error. HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done STOP 1 STOP 1 STOP 1 STOP 1 Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.34 0.34 HelmholtzSolve: iter: 1 Solve: (s) 47.38 47.38 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.44 0.44 HelmholtzSolve: iter: 1 Solve: (s) 47.56 47.56 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.33 0.33 HelmholtzSolve: iter: 1 Solve: (s) 47.25 47.25 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: iter: 1 Assembly: (s) 0.38 0.38 HelmholtzSolve: iter: 1 Solve: (s) 47.33 47.33 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.45 0.45 HelmholtzSolve: iter: 1 Solve: (s) 47.34 47.34 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.33 0.33 HelmholtzSolve: iter: 1 Solve: (s) 47.48 47.48 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.33 0.33 HelmholtzSolve: iter: 1 Solve: (s) 47.66 47.66 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.34 0.34 HelmholtzSolve: iter: 1 Solve: (s) 47.33 47.33 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.36 0.36 HelmholtzSolve: iter: 1 Solve: (s) 47.48 47.48 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.45 0.45 HelmholtzSolve: iter: 1 Solve: (s) 47.70 47.70 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.33 0.33 HelmholtzSolve: iter: 1 Solve: (s) 47.78 47.78 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.48 0.48 HelmholtzSolve: iter: 1 Solve: (s) 47.53 47.53 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.36 0.36 HelmholtzSolve: iter: 1 Solve: (s) 47.80 47.80 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly done HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.33 0.33 HelmholtzSolve: iter: 1 Solve: (s) 47.78 47.78 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.30 0.30 HelmholtzSolve: iter: 1 Solve: (s) 47.73 47.73 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly done HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.41 0.41 HelmholtzSolve: iter: 1 Solve: (s) 47.69 47.69 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.34 0.34 HelmholtzSolve: iter: 1 Solve: (s) 47.97 47.97 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.31 0.31 HelmholtzSolve: iter: 1 Solve: (s) 47.80 47.80 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.36 0.36 HelmholtzSolve: iter: 1 Solve: (s) 48.08 48.08 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly done HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.34 0.34 HelmholtzSolve: iter: 1 Solve: (s) 48.31 48.31 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.34 0.34 HelmholtzSolve: iter: 1 Solve: (s) 48.39 48.39 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.33 0.33 HelmholtzSolve: iter: 1 Solve: (s) 48.36 48.36 ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.31 0.31 HelmholtzSolve: iter: 1 Solve: (s) 48.44 48.44 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.36 0.36 HelmholtzSolve: iter: 1 Solve: (s) 48.55 48.55 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.36 0.36 HelmholtzSolve: iter: 1 Solve: (s) 48.53 48.53 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.33 0.33 HelmholtzSolve: iter: 1 Solve: (s) 48.72 48.72 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.34 0.34 HelmholtzSolve: iter: 1 Solve: (s) 48.48 48.48 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.36 0.36 HelmholtzSolve: iter: 1 Solve: (s) 48.70 48.70 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.44 0.44 HelmholtzSolve: iter: 1 Solve: (s) 48.55 48.55 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: Assembly: HelmholtzSolve: iter: 1 Assembly: (s) 0.38 0.38 HelmholtzSolve: iter: 1 Solve: (s) 48.67 48.67 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.33 0.33 HelmholtzSolve: iter: 1 Solve: (s) 48.64 48.64 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.36 0.36 HelmholtzSolve: iter: 1 Solve: (s) 48.75 48.75 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.34 0.34 HelmholtzSolve: iter: 1 Solve: (s) 49.11 49.11 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.48 0.48 HelmholtzSolve: iter: 1 Solve: (s) 48.89 48.89 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.34 0.34 HelmholtzSolve: iter: 1 Solve: (s) 49.27 49.27 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.38 0.38 HelmholtzSolve: iter: 1 Solve: (s) 49.16 49.16 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.38 0.38 HelmholtzSolve: iter: 1 Solve: (s) 49.36 49.36 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.38 0.38 HelmholtzSolve: iter: 1 Solve: (s) 49.36 49.36 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.31 0.31 HelmholtzSolve: iter: 1 Solve: (s) 49.23 49.23 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.34 0.34 HelmholtzSolve: iter: 1 Solve: (s) 49.36 49.36 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly done HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.36 0.36 HelmholtzSolve: iter: 1 Assembly: (s) 0.38 0.38 HelmholtzSolve: iter: 1 Solve: (s) 49.44 49.44 HelmholtzSolve: HelmholtzSolve: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.36 0.36 HelmholtzSolve: iter: 1 Solve: (s) 49.34 49.34 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: iter: 1 Solve: (s) 49.62 49.62 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: ------------------------------------- HelmholtzSolve: Starting Assembly HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.30 0.30 HelmholtzSolve: iter: 1 Solve: (s) 49.55 49.55 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.34 0.34 HelmholtzSolve: iter: 1 Solve: (s) 49.64 49.64 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.31 0.31 HelmholtzSolve: iter: 1 Solve: (s) 49.67 49.67 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.31 0.31 HelmholtzSolve: iter: 1 Solve: (s) 49.69 49.69 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.33 0.33 HelmholtzSolve: iter: 1 Solve: (s) 49.84 49.84 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.36 0.36 HelmholtzSolve: iter: 1 Solve: (s) 49.92 49.92 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.36 0.36 HelmholtzSolve: iter: 1 Solve: (s) 50.05 50.05 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.38 0.38 HelmholtzSolve: iter: 1 Solve: (s) 50.14 50.14 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.56 0.56 HelmholtzSolve: iter: 1 Solve: (s) 50.09 50.09 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.38 0.38 HelmholtzSolve: iter: 1 Solve: (s) 50.44 50.44 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.39 0.39 HelmholtzSolve: iter: 1 Solve: (s) 50.45 50.45 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.36 0.36 HelmholtzSolve: iter: 1 Solve: (s) 50.53 50.53 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.50 0.50 HelmholtzSolve: iter: 1 Solve: (s) 50.39 50.39 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.55 0.55 HelmholtzSolve: iter: 1 Solve: (s) 50.42 50.42 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.44 0.44 HelmholtzSolve: iter: 1 Solve: (s) 50.44 50.44 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.33 0.33 HelmholtzSolve: iter: 1 Solve: (s) 50.91 50.91 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: ComputeChange: NS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 1 Assembly: (s) 0.36 0.36 HelmholtzSolve: iter: 1 Solve: (s) 51.11 51.11 HelmholtzSolve: HelmholtzSolve: ------------------------------------- HelmholtzSolve: Helmholtz iteration 2 HelmholtzSolve: Frequency (Hz): 999.97050744637841 HelmholtzSolve: ------------------------------------- HelmholtzSolve: HelmholtzSolve: Starting Assembly HelmholtzSolve: Assembly: HelmholtzSolve: Assembly done HelmholtzSolve: Assembly done ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.50 0.84 HelmholtzSolve: iter: 2 Solve: (s) 44.78 92.11 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 96.44 96.44 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:10 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.33 0.69 HelmholtzSolve: iter: 2 Solve: (s) 45.00 92.48 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 96.25 96.25 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:10 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.30 0.62 HelmholtzSolve: iter: 2 Solve: (s) 45.22 92.70 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.41 0.73 HelmholtzSolve: iter: 2 Solve: (s) 45.20 92.45 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.36 0.67 HelmholtzSolve: iter: 2 Solve: (s) 44.69 92.48 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 96.25 96.25 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:10 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 96.80 96.80 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:10 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 96.41 96.41 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:10 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.38 0.86 HelmholtzSolve: iter: 2 Solve: (s) 44.98 92.52 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.42 0.80 HelmholtzSolve: iter: 2 Solve: (s) 45.33 92.66 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.34 0.66 HelmholtzSolve: iter: 2 Solve: (s) 44.23 92.67 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.30 0.64 HelmholtzSolve: iter: 2 Solve: (s) 45.58 92.95 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present ResultOutputSolver: ------------------------------------- CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: ElmerSolver: *** Elmer Solver: ALL DONE *** Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.30 0.75 HelmholtzSolve: iter: 2 Solve: (s) 45.23 92.94 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.30 0.75 HelmholtzSolve: iter: 2 Solve: (s) 45.41 92.75 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.38 0.73 HelmholtzSolve: iter: 2 Solve: (s) 45.06 92.86 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 96.42 96.42 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 96.69 96.69 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.39 0.75 HelmholtzSolve: iter: 2 Solve: (s) 44.69 92.77 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.38 0.78 HelmholtzSolve: iter: 2 Solve: (s) 45.03 92.72 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: HelmholtzSolve: iter: 2 Assembly: (s) 0.34 0.69 HelmholtzSolve: iter: 2 Solve: (s) 45.03 93.00 Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.36 0.66 HelmholtzSolve: iter: 2 Solve: (s) 45.09 92.83 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 96.88 96.88 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 96.95 96.95 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.30 0.62 HelmholtzSolve: iter: 2 Solve: (s) 45.27 93.05 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.27 97.27 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 96.61 96.61 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ResultOutputSolver: ------------------------------------- ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation ElmerSolver: *** Elmer Solver: ALL DONE *** HelmholtzSolve: iter: 2 Assembly: (s) 0.34 0.78 HelmholtzSolve: iter: 2 Solve: (s) 45.63 93.19 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.33 0.81 HelmholtzSolve: iter: 2 Solve: (s) 43.92 92.81 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.39 0.72 HelmholtzSolve: iter: 2 Solve: (s) 45.20 92.98 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 96.95 96.95 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ResultOutputSolver: ------------------------------------- ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: *** Elmer Solver: ALL DONE *** ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.34 0.67 HelmholtzSolve: iter: 2 Solve: (s) 44.50 92.86 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.00 97.00 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.34 0.70 HelmholtzSolve: iter: 2 Solve: (s) 44.30 93.00 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 96.81 96.81 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.28 97.28 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ResultOutputSolver: ------------------------------------- ElmerSolver: The end ElmerSolver: *** Elmer Solver: ALL DONE *** SOLVER TOTAL TIME(CPU,REAL): 97.42 97.42 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 96.95 96.95 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.50 97.50 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.27 97.27 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 96.86 96.86 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.34 97.34 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.23 97.23 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.36 0.70 HelmholtzSolve: iter: 2 Solve: (s) 44.80 93.19 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.31 0.64 HelmholtzSolve: iter: 2 Solve: (s) 45.84 93.50 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.44 0.80 HelmholtzSolve: iter: 2 Solve: (s) 44.63 93.16 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.42 0.77 HelmholtzSolve: iter: 2 Solve: (s) 44.58 93.06 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.38 0.72 HelmholtzSolve: iter: 2 Solve: (s) 45.16 93.47 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.28 0.64 HelmholtzSolve: iter: 2 Solve: (s) 44.86 93.41 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.33 0.77 HelmholtzSolve: iter: 2 Solve: (s) 44.61 93.16 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.00 97.00 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.41 0.75 HelmholtzSolve: iter: 2 Solve: (s) 44.25 93.36 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.52 0.89 HelmholtzSolve: iter: 2 Solve: (s) 44.45 93.13 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.39 0.75 HelmholtzSolve: iter: 2 Solve: (s) 44.58 93.33 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.31 0.64 HelmholtzSolve: iter: 2 Solve: (s) 44.83 93.55 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format ResultOutputSolver: ------------------------------------- VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: *** Elmer Solver: ALL DONE *** ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.48 0.86 HelmholtzSolve: iter: 2 Solve: (s) 44.08 93.23 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.39 0.73 HelmholtzSolve: iter: 2 Solve: (s) 44.00 93.36 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.33 0.64 HelmholtzSolve: iter: 2 Solve: (s) 44.08 93.31 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.42 0.78 HelmholtzSolve: iter: 2 Solve: (s) 43.80 93.14 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.30 0.61 HelmholtzSolve: iter: 2 Solve: (s) 43.83 93.50 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.41 0.78 HelmholtzSolve: iter: 2 Solve: (s) 44.06 93.42 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.12 97.12 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.37 97.37 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.88 97.88 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:11 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.45 0.80 HelmholtzSolve: iter: 2 Solve: (s) 44.44 93.70 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.38 0.73 HelmholtzSolve: iter: 2 Solve: (s) 44.12 93.75 HelmholtzSolve: iter: 2 Assembly: (s) 0.48 0.86 HelmholtzSolve: iter: 2 Solve: (s) 44.25 93.61 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.61 97.61 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.47 97.47 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.73 97.73 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.48 0.78 HelmholtzSolve: iter: 2 Solve: (s) 44.17 93.72 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.16 98.16 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.42 0.80 HelmholtzSolve: iter: 2 Solve: (s) 44.23 93.67 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.66 97.66 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.36 0.70 HelmholtzSolve: iter: 2 Solve: (s) 44.33 93.97 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.50 0.88 HelmholtzSolve: iter: 2 Solve: (s) 43.58 93.72 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.55 0.91 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Solve: (s) 43.77 93.81 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.08 98.08 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.38 0.69 HelmholtzSolve: iter: 2 Solve: (s) 44.27 93.95 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.44 0.77 HelmholtzSolve: iter: 2 Solve: (s) 45.12 93.77 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ResultOutputSolver: ------------------------------------- ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: *** Elmer Solver: ALL DONE *** ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.36 0.72 HelmholtzSolve: iter: 2 Solve: (s) 43.47 94.00 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.59 0.92 HelmholtzSolve: iter: 2 Solve: (s) 43.87 93.72 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.41 0.76 HelmholtzSolve: iter: 2 Solve: (s) 44.05 93.97 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.33 0.89 HelmholtzSolve: iter: 2 Solve: (s) 43.66 93.75 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.72 97.72 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.30 0.67 HelmholtzSolve: iter: 2 Solve: (s) 43.64 94.08 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.34 0.89 HelmholtzSolve: iter: 2 Solve: (s) 43.47 93.89 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case Saving number of partitions: 1 ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.88 97.88 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.31 0.81 HelmholtzSolve: iter: 2 Solve: (s) 43.53 93.92 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.38 0.77 HelmholtzSolve: iter: 2 Solve: (s) 43.55 94.00 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: *** Elmer Solver: ALL DONE *** ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.36 0.80 HelmholtzSolve: iter: 2 Solve: (s) 43.44 93.87 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.39 0.72 HelmholtzSolve: iter: 2 Solve: (s) 43.03 93.94 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ComputeChange: NS (ITER=2) (NRM,RELC): ( 0.38018912E-01 0.0000000 ) :: helmholtz equation HelmholtzSolve: iter: 2 Assembly: (s) 0.30 0.66 HelmholtzSolve: iter: 2 Solve: (s) 43.08 94.19 ComputeChange: SS (ITER=1) (NRM,RELC): ( 0.38018912E-01 2.0000000 ) :: helmholtz equation ResultOutputSolver: ------------------------------------- ResultOutputSolver: Saving with prefix: case ResultOutputSolver: Creating list for saving - if not present CreateListForSaving: Field Variables for Saving ResultOutputSolver: Saving in unstructured VTK XML (.vtu) format VtuOutputSolver: Saving results in VTK XML format with prefix: case VtuOutputSolver: Saving number of partitions: 1 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.84 97.84 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ResultOutputSolver: ------------------------------------- ElmerSolver: *** Elmer Solver: ALL DONE *** ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.41 98.41 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.89 97.89 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.17 98.17 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 97.92 97.92 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.22 98.22 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.38 98.38 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.28 98.28 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 99.08 99.08 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.91 98.91 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:12 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.50 98.50 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.87 98.87 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.77 98.77 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.83 98.83 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.98 98.98 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 99.28 99.28 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.80 98.80 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 99.36 99.36 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.80 98.80 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 99.39 99.39 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 99.30 99.30 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.77 98.77 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 99.39 99.39 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 99.30 99.30 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 98.95 98.95 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13 ElmerSolver: The end SOLVER TOTAL TIME(CPU,REAL): 99.12 99.12 ELMER SOLVER FINISHED AT: 2022/07/29 22:37:13