Sender: LSF System Subject: Job 185433: Done Job was submitted from host by user . Job was executed on host(s) <8*k014>, in queue , as user . <8*k039> <8*k026> <8*k036> <8*k001> <8*k013> <8*k035> <8*k018> <8*k037> <8*k048> <8*k028> <8*k053> <8*k054> <8*k027> <8*k055> <8*k012> <8*k022> <8*k056> <8*k040> <8*k029> <8*k047> <8*k007> <8*k049> <8*k042> <8*k017> <8*k050> <8*k015> <8*k003> <8*k041> <8*k006> <8*k038> <8*k020> was used as the home directory. was used as the working directory. Started at Fri May 13 16:21:54 2011 Results reported at Fri May 13 16:22:45 2011 Your job looked like: ------------------------------------------------------------ # LSBATCH: User input mpirun.lsf ./full_v1 -log_summary -ksp_view -ksp_monitor ------------------------------------------------------------ Successfully completed. Resource usage summary: CPU time : 3681.65 sec. Max Memory : 16 MB Max Swap : 298 MB Max Processes : 6 Max Threads : 7 The output (if any) follows: %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% DNS of Taylor-Green Vortex Flow %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% viscous case Initializing PETSc... Creating distributed array context... Extracting global/local vector(s) from DA... Creating matrix structure... Creating linear solver context... Calling init... .....Mach : 8.451542547285165E-002 .....Reynolds : 1600.00000000000 Calling initial output ... ....................................................... iter...: 0 kinetic energy ratio...: 0.125000000000000 vorticity ratio........: 1.00000000000000 enstrophy ratio........: 1.00000000000000 helicity ratio.........: 1.00000000000000 dissipation............: 0.000000000000000E+000 effective_visc.........: 0.000000000000000E+000 lambda.................: 0.666733603909455 skewness...............: 1.063403687153270E-017 flatness...............: 2.25000000000001 ...................................................... Writing out files.... Entering time-loop... Calling initial_vn (only once)... Calling initialize... Entering outer-loop... .............................. time : 1.000000000000000E-003 iter : 1 loop : 1 .............................. Solving for continuity... ...Solving linear system for density... 0 KSP Residual norm 4.095997496662e+03 1 KSP Residual norm 4.516578275365e+00 2 KSP Residual norm 3.109358383507e-02 KSP Object: type: gmres GMRES: restart=30, using Classical (unmodified) Gram-Schmidt Orthogonalization with no iterative refinement GMRES: happy breakdown tolerance 1e-30 maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object: type: bjacobi block Jacobi: number of blocks = 256 Local solve is same for all blocks, in the following KSP and PC objects: KSP Object:(sub_) type: preonly maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object:(sub_) type: ilu ILU: out-of-place factorization 0 levels of fill tolerance for zero pivot 1e-12 using diagonal shift to prevent zero pivot matrix ordering: natural factor fill ratio given 1, needed 1 Factored matrix follows: Matrix Object: type=seqaij, rows=65536, cols=65536 package used to perform factorization: petsc total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=seqaij, rows=65536, cols=65536 total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=mpiaij, rows=16777216, cols=16777216 total: nonzeros=117440512, allocated nonzeros=117440512 not using I-node (on process 0) routines Ksp Converged :) new.density, max...: 1.00010293547319 new.density, min...: 0.999997723546990 Solving for momentum... ...Solving linear system for x-mom... 0 KSP Residual norm 1.448149966732e+03 1 KSP Residual norm 2.395138585018e+00 2 KSP Residual norm 1.812679042073e-02 3 KSP Residual norm 6.279105176545e-05 KSP Object: type: gmres GMRES: restart=30, using Classical (unmodified) Gram-Schmidt Orthogonalization with no iterative refinement GMRES: happy breakdown tolerance 1e-30 maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object: type: bjacobi block Jacobi: number of blocks = 256 Local solve is same for all blocks, in the following KSP and PC objects: KSP Object:(sub_) type: preonly maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object:(sub_) type: ilu ILU: out-of-place factorization 0 levels of fill tolerance for zero pivot 1e-12 using diagonal shift to prevent zero pivot matrix ordering: natural factor fill ratio given 1, needed 1 Factored matrix follows: Matrix Object: type=seqaij, rows=65536, cols=65536 package used to perform factorization: petsc total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=seqaij, rows=65536, cols=65536 total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=mpiaij, rows=16777216, cols=16777216 total: nonzeros=117440512, allocated nonzeros=117440512 not using I-node (on process 0) routines Ksp Converged :) x-mom*, max...: 0.999775636549048 x-mom*, min...: -0.999775636551872 ...Solving linear system for y-mom... 0 KSP Residual norm 1.448150406440e+03 1 KSP Residual norm 2.112331847826e+00 2 KSP Residual norm 1.672375785843e-02 3 KSP Residual norm 5.931039629476e-05 KSP Object: type: gmres GMRES: restart=30, using Classical (unmodified) Gram-Schmidt Orthogonalization with no iterative refinement GMRES: happy breakdown tolerance 1e-30 maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object: type: bjacobi block Jacobi: number of blocks = 256 Local solve is same for all blocks, in the following KSP and PC objects: KSP Object:(sub_) type: preonly maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object:(sub_) type: ilu ILU: out-of-place factorization 0 levels of fill tolerance for zero pivot 1e-12 using diagonal shift to prevent zero pivot matrix ordering: natural factor fill ratio given 1, needed 1 Factored matrix follows: Matrix Object: type=seqaij, rows=65536, cols=65536 package used to perform factorization: petsc total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=seqaij, rows=65536, cols=65536 total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=mpiaij, rows=16777216, cols=16777216 total: nonzeros=117440512, allocated nonzeros=117440512 not using I-node (on process 0) routines Ksp Converged :) y-mom*, max...: 0.999775587771884 y-mom*, min...: -0.999775587774413 ...Solving linear system for z-mom... 0 KSP Residual norm 3.618931709714e-01 1 KSP Residual norm 2.821650319939e-04 2 KSP Residual norm 1.412157108559e-06 KSP Object: type: gmres GMRES: restart=30, using Classical (unmodified) Gram-Schmidt Orthogonalization with no iterative refinement GMRES: happy breakdown tolerance 1e-30 maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object: type: bjacobi block Jacobi: number of blocks = 256 Local solve is same for all blocks, in the following KSP and PC objects: KSP Object:(sub_) type: preonly maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object:(sub_) type: ilu ILU: out-of-place factorization 0 levels of fill tolerance for zero pivot 1e-12 using diagonal shift to prevent zero pivot matrix ordering: natural factor fill ratio given 1, needed 1 Factored matrix follows: Matrix Object: type=seqaij, rows=65536, cols=65536 package used to perform factorization: petsc total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=seqaij, rows=65536, cols=65536 total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=mpiaij, rows=16777216, cols=16777216 total: nonzeros=117440512, allocated nonzeros=117440512 not using I-node (on process 0) routines Ksp Converged :) z-mom*, max...: 2.497489540045516E-004 z-mom*, min...: -2.497489540045516E-004 Calculating predictor values... Solving for pressure-correction... ...Solving linear system for pressure-correction... 0 KSP Residual norm 6.396765920156e-01 1 KSP Residual norm 1.144841528576e-02 2 KSP Residual norm 3.179673231479e-04 3 KSP Residual norm 2.162723669232e-05 4 KSP Residual norm 5.955438632565e-07 KSP Object: type: gmres GMRES: restart=30, using Classical (unmodified) Gram-Schmidt Orthogonalization with no iterative refinement GMRES: happy breakdown tolerance 1e-30 maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object: type: bjacobi block Jacobi: number of blocks = 256 Local solve is same for all blocks, in the following KSP and PC objects: KSP Object:(sub_) type: preonly maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object:(sub_) type: ilu ILU: out-of-place factorization 0 levels of fill tolerance for zero pivot 1e-12 using diagonal shift to prevent zero pivot matrix ordering: natural factor fill ratio given 1, needed 1 Factored matrix follows: Matrix Object: type=seqaij, rows=65536, cols=65536 package used to perform factorization: petsc total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=seqaij, rows=65536, cols=65536 total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=mpiaij, rows=16777216, cols=16777216 total: nonzeros=117440512, allocated nonzeros=117440512 not using I-node (on process 0) routines Ksp Converged :) dp, max...: 5.749881672869813E-004 dp, min...: -5.773053816216927E-004 Calculating corrected values... Checking for outer-loop convergency... ......................................... rhoerr .....: 1.707721624266721E-003 gxerr ......: 1.599885854976260E-002 gyerr ......: 1.599880254196369E-002 gzerr ......: 2.261824431770735E-002 dperr ......: 3.551332814226116E-002 .......................................... Updating loop values... .............................. time : 1.000000000000000E-003 iter : 1 loop : 2 .............................. Solving for continuity... ...Solving linear system for density... 0 KSP Residual norm 4.095997496783e+03 1 KSP Residual norm 4.516468823373e+00 2 KSP Residual norm 3.109159075693e-02 KSP Object: type: gmres GMRES: restart=30, using Classical (unmodified) Gram-Schmidt Orthogonalization with no iterative refinement GMRES: happy breakdown tolerance 1e-30 maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object: type: bjacobi block Jacobi: number of blocks = 256 Local solve is same for all blocks, in the following KSP and PC objects: KSP Object:(sub_) type: preonly maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object:(sub_) type: ilu ILU: out-of-place factorization 0 levels of fill tolerance for zero pivot 1e-12 using diagonal shift to prevent zero pivot matrix ordering: natural factor fill ratio given 1, needed 1 Factored matrix follows: Matrix Object: type=seqaij, rows=65536, cols=65536 package used to perform factorization: petsc total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=seqaij, rows=65536, cols=65536 total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=mpiaij, rows=16777216, cols=16777216 total: nonzeros=117440512, allocated nonzeros=117440512 not using I-node (on process 0) routines Ksp Converged :) new.density, max...: 1.00010388131424 new.density, min...: 0.999998625881336 Solving for momentum... ...Solving linear system for x-mom... 0 KSP Residual norm 1.448149966811e+03 1 KSP Residual norm 2.395105321013e+00 2 KSP Residual norm 1.812617212645e-02 3 KSP Residual norm 6.278653194117e-05 KSP Object: type: gmres GMRES: restart=30, using Classical (unmodified) Gram-Schmidt Orthogonalization with no iterative refinement GMRES: happy breakdown tolerance 1e-30 maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object: type: bjacobi block Jacobi: number of blocks = 256 Local solve is same for all blocks, in the following KSP and PC objects: KSP Object:(sub_) type: preonly maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object:(sub_) type: ilu ILU: out-of-place factorization 0 levels of fill tolerance for zero pivot 1e-12 using diagonal shift to prevent zero pivot matrix ordering: natural factor fill ratio given 1, needed 1 Factored matrix follows: Matrix Object: type=seqaij, rows=65536, cols=65536 package used to perform factorization: petsc total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=seqaij, rows=65536, cols=65536 total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=mpiaij, rows=16777216, cols=16777216 total: nonzeros=117440512, allocated nonzeros=117440512 not using I-node (on process 0) routines Ksp Converged :) x-mom*, max...: 0.999777071105273 x-mom*, min...: -0.999777071101782 ...Solving linear system for y-mom... 0 KSP Residual norm 1.448150406477e+03 1 KSP Residual norm 2.112300328287e+00 2 KSP Residual norm 1.672314753523e-02 3 KSP Residual norm 5.930637930014e-05 KSP Object: type: gmres GMRES: restart=30, using Classical (unmodified) Gram-Schmidt Orthogonalization with no iterative refinement GMRES: happy breakdown tolerance 1e-30 maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object: type: bjacobi block Jacobi: number of blocks = 256 Local solve is same for all blocks, in the following KSP and PC objects: KSP Object:(sub_) type: preonly maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object:(sub_) type: ilu ILU: out-of-place factorization 0 levels of fill tolerance for zero pivot 1e-12 using diagonal shift to prevent zero pivot matrix ordering: natural factor fill ratio given 1, needed 1 Factored matrix follows: Matrix Object: type=seqaij, rows=65536, cols=65536 package used to perform factorization: petsc total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=seqaij, rows=65536, cols=65536 total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=mpiaij, rows=16777216, cols=16777216 total: nonzeros=117440512, allocated nonzeros=117440512 not using I-node (on process 0) routines Ksp Converged :) y-mom*, max...: 0.999777023801456 y-mom*, min...: -0.999777023798959 ...Solving linear system for z-mom... 0 KSP Residual norm 3.618908464612e-01 1 KSP Residual norm 2.821590505965e-04 2 KSP Residual norm 1.412095736401e-06 KSP Object: type: gmres GMRES: restart=30, using Classical (unmodified) Gram-Schmidt Orthogonalization with no iterative refinement GMRES: happy breakdown tolerance 1e-30 maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object: type: bjacobi block Jacobi: number of blocks = 256 Local solve is same for all blocks, in the following KSP and PC objects: KSP Object:(sub_) type: preonly maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object:(sub_) type: ilu ILU: out-of-place factorization 0 levels of fill tolerance for zero pivot 1e-12 using diagonal shift to prevent zero pivot matrix ordering: natural factor fill ratio given 1, needed 1 Factored matrix follows: Matrix Object: type=seqaij, rows=65536, cols=65536 package used to perform factorization: petsc total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=seqaij, rows=65536, cols=65536 total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=mpiaij, rows=16777216, cols=16777216 total: nonzeros=117440512, allocated nonzeros=117440512 not using I-node (on process 0) routines Ksp Converged :) z-mom*, max...: 2.497476257396098E-004 z-mom*, min...: -2.497476257396867E-004 Calculating predictor values... Solving for pressure-correction... ...Solving linear system for pressure-correction... 0 KSP Residual norm 1.552234921994e-02 1 KSP Residual norm 5.390137516841e-04 2 KSP Residual norm 2.108370626791e-05 3 KSP Residual norm 1.269869679062e-06 4 KSP Residual norm 4.228040797391e-08 KSP Object: type: gmres GMRES: restart=30, using Classical (unmodified) Gram-Schmidt Orthogonalization with no iterative refinement GMRES: happy breakdown tolerance 1e-30 maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object: type: bjacobi block Jacobi: number of blocks = 256 Local solve is same for all blocks, in the following KSP and PC objects: KSP Object:(sub_) type: preonly maximum iterations=10000, initial guess is zero tolerances: relative=1e-05, absolute=1e-50, divergence=10000 left preconditioning using PRECONDITIONED norm type for convergence test PC Object:(sub_) type: ilu ILU: out-of-place factorization 0 levels of fill tolerance for zero pivot 1e-12 using diagonal shift to prevent zero pivot matrix ordering: natural factor fill ratio given 1, needed 1 Factored matrix follows: Matrix Object: type=seqaij, rows=65536, cols=65536 package used to perform factorization: petsc total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=seqaij, rows=65536, cols=65536 total: nonzeros=448512, allocated nonzeros=448512 not using I-node routines linear system matrix = precond matrix: Matrix Object: type=mpiaij, rows=16777216, cols=16777216 total: nonzeros=117440512, allocated nonzeros=117440512 not using I-node (on process 0) routines Ksp Converged :) dp, max...: 4.506664273245711E-005 dp, min...: -3.616825361421888E-005 Calculating corrected values... Checking for outer-loop convergency... ......................................... rhoerr .....: 1.702749184768313E-005 gxerr ......: 5.337258956855889E-006 gyerr ......: 4.845901755134211E-006 gzerr ......: 3.048078292216112E-007 dperr ......: 8.716788794428185E-004 .......................................... Walton correction to pressure in time... Updating timestep values... Calling output per timestep... ....................................................... iter...: 1 kinetic energy ratio...: 0.124999379155770 vorticity ratio........: 15.6829268292683 enstrophy ratio........: 0.999995137499979 helicity ratio.........: -21.4552958487513 dissipation............: 6.208442295124739E-004 effective_visc.........: 6.208472483822324E-004 lambda.................: 0.833467185020270 skewness...............: 3.540322864152412E-004 flatness...............: 3.37500316632535 ...................................................... Writing out files.... Calculation done Total cpu time is 5.01723700000000 ************************************************************************************************************************ *** WIDEN YOUR WINDOW TO 120 CHARACTERS. Use 'enscript -r -fCourier9' to print this document *** ************************************************************************************************************************ ---------------------------------------------- PETSc Performance Summary: ---------------------------------------------- ./full_v1 on a linux-gnu named k014.uybhm.itu.edu.tr with 256 processors, by iyilmaz Fri May 13 16:22:41 2011 Using Petsc Release Version 3.1.0, Patch 8, Thu Mar 17 13:37:48 CDT 2011 Max Max/Min Avg Total Time (sec): 1.390e+01 1.02380 1.362e+01 Objects: 6.300e+02 1.00000 6.300e+02 Flops: 9.303e+07 1.00000 9.303e+07 2.382e+10 Flops/sec: 6.853e+06 1.02380 6.831e+06 1.749e+09 MPI Messages: 4.875e+03 2.34262 2.092e+03 5.355e+05 MPI Message Lengths: 2.803e+07 1.00040 1.339e+04 7.172e+09 MPI Reductions: 7.720e+02 1.00000 Flop counting convention: 1 flop = 1 real number operation of type (multiply/divide/add/subtract) e.g., VecAXPY() for real vectors of length N --> 2N flops and VecAXPY() for complex vectors of length N --> 8N flops Summary of Stages: ----- Time ------ ----- Flops ----- --- Messages --- -- Message Lengths -- -- Reductions -- Avg %Total Avg %Total counts %Total Avg %Total counts %Total 0: Main Stage: 1.3619e+01 100.0% 2.3815e+10 100.0% 5.355e+05 100.0% 1.339e+04 100.0% 2.110e+02 27.3% ------------------------------------------------------------------------------------------------------------------------ See the 'Profiling' chapter of the users' manual for details on interpreting output. Phase summary info: Count: number of times phase was executed Time and Flops: Max - maximum over all processors Ratio - ratio of maximum to minimum over all processors Mess: number of messages sent Avg. len: average message length Reduct: number of global reductions Global: entire computation Stage: stages of a computation. Set stages with PetscLogStagePush() and PetscLogStagePop(). %T - percent time in this phase %F - percent flops in this phase %M - percent messages in this phase %L - percent message lengths in this phase %R - percent reductions in this phase Total Mflop/s: 10e-6 * (sum of flops over all processors)/(max time over all processors) ------------------------------------------------------------------------------------------------------------------------ Event Count Time (sec) Flops --- Global --- --- Stage --- Total Max Ratio Max Ratio Max Ratio Mess Avg len Reduct %T %F %M %L %R %T %F %M %L %R Mflop/s ------------------------------------------------------------------------------------------------------------------------ --- Event Stage 0: Main Stage VecMDot 28 1.0 2.3005e-02 1.3 7.34e+06 1.0 0.0e+00 0.0e+00 2.8e+01 0 8 0 0 4 0 8 0 0 13 81680 VecNorm 38 1.0 1.6334e-01 1.1 4.98e+06 1.0 0.0e+00 0.0e+00 3.8e+01 1 5 0 0 5 1 5 0 0 18 7806 VecScale 38 1.0 2.4061e-03 1.1 2.49e+06 1.0 0.0e+00 0.0e+00 0.0e+00 0 3 0 0 0 0 3 0 0 0 264964 VecCopy 10 1.0 3.1838e-03 1.3 0.00e+00 0.0 0.0e+00 0.0e+00 0.0e+00 0 0 0 0 0 0 0 0 0 0 0 VecSet 94 1.0 1.2940e-02 1.1 0.00e+00 0.0 0.0e+00 0.0e+00 0.0e+00 0 0 0 0 0 0 0 0 0 0 0 VecAXPY 10 1.0 1.1383e-02 2.9 1.31e+06 1.0 0.0e+00 0.0e+00 0.0e+00 0 1 0 0 0 0 1 0 0 0 29478 VecMAXPY 38 1.0 1.0679e-02 1.1 1.10e+07 1.0 0.0e+00 0.0e+00 0.0e+00 0 12 0 0 0 0 12 0 0 0 263936 VecScatterBegin 523 1.0 2.0887e-01 1.1 0.00e+00 0.0 5.2e+05 1.4e+04 0.0e+00 1 0 98100 0 1 0 98100 0 0 VecScatterEnd 523 1.0 1.4638e-01 1.4 0.00e+00 0.0 0.0e+00 0.0e+00 0.0e+00 1 0 0 0 0 1 0 0 0 0 0 VecNormalize 38 1.0 1.6564e-01 1.1 7.47e+06 1.0 0.0e+00 0.0e+00 3.8e+01 1 8 0 0 5 1 8 0 0 18 11546 MatMult 28 1.0 6.2816e-02 1.1 2.39e+07 1.0 4.3e+04 1.4e+04 0.0e+00 0 26 8 8 0 0 26 8 8 0 97218 MatSolve 38 1.0 7.1151e-02 1.0 3.16e+07 1.0 0.0e+00 0.0e+00 0.0e+00 1 34 0 0 0 1 34 0 0 0 113685 MatLUFactorNum 10 1.0 6.5607e-02 1.1 1.04e+07 1.0 0.0e+00 0.0e+00 0.0e+00 0 11 0 0 0 0 11 0 0 0 40757 MatILUFactorSym 1 1.0 6.4542e-03 1.3 0.00e+00 0.0 0.0e+00 0.0e+00 1.0e+00 0 0 0 0 0 0 0 0 0 0 0 MatAssemblyBegin 7 1.0 4.2629e-02 1.9 0.00e+00 0.0 0.0e+00 0.0e+00 1.4e+01 0 0 0 0 2 0 0 0 0 7 0 MatAssemblyEnd 7 1.0 1.9692e-02 1.0 0.00e+00 0.0 3.1e+03 3.4e+03 1.3e+01 0 0 1 0 2 0 0 1 0 6 0 MatGetRowIJ 1 1.0 4.2892e-0485.7 0.00e+00 0.0 0.0e+00 0.0e+00 0.0e+00 0 0 0 0 0 0 0 0 0 0 0 MatGetOrdering 1 1.0 1.1668e-03 2.1 0.00e+00 0.0 0.0e+00 0.0e+00 2.0e+00 0 0 0 0 0 0 0 0 0 1 0 MatView 30 3.0 4.0881e+003489.3 0.00e+00 0.0 0.0e+00 0.0e+00 1.0e+01 24 0 0 0 1 24 0 0 0 5 0 KSPGMRESOrthog 28 1.0 2.9535e-02 1.2 1.47e+07 1.0 0.0e+00 0.0e+00 2.8e+01 0 16 0 0 4 0 16 0 0 13 127242 KSPSetup 20 1.0 1.6701e-03 1.6 0.00e+00 0.0 0.0e+00 0.0e+00 0.0e+00 0 0 0 0 0 0 0 0 0 0 0 KSPSolve 10 1.0 4.1713e-01 1.0 9.30e+07 1.0 4.3e+04 1.4e+04 6.9e+01 3100 8 8 9 3100 8 8 33 57093 PCSetUp 20 1.0 7.7342e-02 1.2 1.04e+07 1.0 0.0e+00 0.0e+00 3.0e+00 0 11 0 0 0 0 11 0 0 1 34573 PCSetUpOnBlocks 10 1.0 7.1741e-02 1.1 1.04e+07 1.0 0.0e+00 0.0e+00 3.0e+00 0 11 0 0 0 0 11 0 0 1 37272 PCApply 38 1.0 7.7951e-02 1.0 3.16e+07 1.0 0.0e+00 0.0e+00 0.0e+00 1 34 0 0 0 1 34 0 0 0 103767 ------------------------------------------------------------------------------------------------------------------------ Memory usage is given in bytes: Object Type Creations Destructions Memory Descendants' Mem. Reports information only for process 0. --- Event Stage 0: Main Stage Distributed array 1 0 0 0 Vec 597 579 340156096 0 Vec Scatter 3 1 868 0 Index Set 9 9 1700440 0 IS L to G Mapping 1 0 0 0 Matrix 4 4 14082644 0 Krylov Solver 2 2 18880 0 Preconditioner 2 2 1408 0 Viewer 11 11 5984 0 ======================================================================================================================== Average time to get PetscTime(): 0 Average time for MPI_Barrier(): 2.84195e-05 Average time for zero size MPI_Send(): 7.66916e-05 #PETSc Option Table entries: -ksp_monitor -ksp_view -log_summary #End of PETSc Option Table entries Compiled without FORTRAN kernels Compiled with full precision matrices (default) sizeof(short) 2 sizeof(int) 4 sizeof(long) 8 sizeof(void*) 8 sizeof(PetscScalar) 8 Configure run at: Thu May 5 15:56:07 2011 Configure options: --with-cxx=mpiicpc --with-cc=mpiicc --with-fc=mpiifort --with-blas-lapack-dir=/RS/progs/intel/composerxe-2011.1.107/mkl/lib/intel64 --with-hypre=1 --download-hypre=ifneeded --with-debugging=no ----------------------------------------- Libraries compiled on Thu May 5 16:02:31 EEST 2011 on d001.uybhm.itu.edu.tr Machine characteristics: Linux d001.uybhm.itu.edu.tr 2.6.18-164.11.1.el5.uybhml183o153p411 #2 SMP Thu Jan 6 01:42:14 EET 2011 x86_64 x86_64 x86_64 GNU/Linux Using PETSc directory: /RS/progs/petsc/3.1-p8 Using PETSc arch: linux-gnu-c-opt ----------------------------------------- Using C compiler: mpiicc -O Using Fortran compiler: mpiifort -O ----------------------------------------- Using include paths: -I/RS/progs/petsc/3.1-p8/linux-gnu-c-opt/include -I/RS/progs/petsc/3.1-p8/include -I/RS/progs/petsc/3.1-p8/linux-gnu-c-opt/include -I/RS/progs/intel/impi/3.1/include64 ------------------------------------------ Using C linker: mpiicc -O Using Fortran linker: mpiifort -O Using libraries: -Wl,-rpath,/RS/progs/petsc/3.1-p8/linux-gnu-c-opt/lib -L/RS/progs/petsc/3.1-p8/linux-gnu-c-opt/lib -lpetsc -lX11 -Wl,-rpath,/RS/progs/petsc/3.1-p8/linux-gnu-c-opt/lib -L/RS/progs/petsc/3.1-p8/linux-gnu-c-opt/lib -lHYPRE -lmpiic4 -Wl,-rpath,/RS/progs/petsc/3.1-p8/-Xlinker -Wl,-rpath,/RS/progs/intel/impi/3.1/lib64 -Wl,-rpath,/opt/intel/mpi-rt/3.1 -Wl,-rpath,/RS/progs/intel/composerxe-2011.1.107/mkl/lib/intel64 -L/RS/progs/intel/composerxe-2011.1.107/mkl/lib/intel64 -lmkl_intel_lp64 -lmkl_intel_thread -lmkl_core -liomp5 -lpthread -lnsl -lrt -ldl -L/RS/progs/intel/impi/3.1/lib64 -lmpi -lmpiif -lmpigi -lrt -lpthread -L/RS/progs/intel/composerxe-2011.1.107/compiler/lib/intel64 -L/RS/progs/intel/composerxe-2011.1.107/ipp/lib/intel64 -L/RS/progs/intel/composerxe-2011.1.107/mkl/lib/intel64 -L/RS/progs/intel/composerxe-2011.1.107/tbb/lib/intel64/cc4.1.0_libc2.4_kernel2.6.16.21 -L/usr/lib/gcc/x86_64-redhat-linux/4.1.2 -limf -lsvml -lipgo -ldecimal -lcilkrts -lstdc++ -lgcc_s -lirc -lirc_s -Wl,-rpath,/RS/progs/petsc/3.1-p8/-Xlinker -Wl,-rpath,/RS/progs/intel/impi/3.1/lib64 -Wl,-rpath,/opt/intel/mpi-rt/3.1 -lifport -lifcore -lm -lm -lmpiic4 -ldl -lmpi -lmpiif -lmpigi -lrt -lpthread -limf -lsvml -lipgo -ldecimal -lcilkrts -lstdc++ -lgcc_s -lirc -lirc_s -ldl ------------------------------------------ PETSc finalized... Job /RS/progs/LSF/7.0/linux2.6-glibc2.3-x86_64/bin/intelmpi_wrapper ./full_v1 -log_summary -ksp_view -ksp_monitor TID HOST_NAME COMMAND_LINE STATUS TERMINATION_TIME ===== ========== ================ ======================= =================== 00000 k020 ./full_v1 -log_s Done 05/13/2011 16:22:41 00001 k020 ./full_v1 -log_s Done 05/13/2011 16:22:41 00002 k020 ./full_v1 -log_s Done 05/13/2011 16:22:41 00003 k020 ./full_v1 -log_s Done 05/13/2011 16:22:41 00004 k020 ./full_v1 -log_s Done 05/13/2011 16:22:41 00005 k020 ./full_v1 -log_s Done 05/13/2011 16:22:41 00006 k020 ./full_v1 -log_s Done 05/13/2011 16:22:41 00007 k020 ./full_v1 -log_s Done 05/13/2011 16:22:41 00008 k038 ./full_v1 -log_s Done 05/13/2011 16:22:41 00009 k038 ./full_v1 -log_s Done 05/13/2011 16:22:41 00010 k038 ./full_v1 -log_s Done 05/13/2011 16:22:41 00011 k038 ./full_v1 -log_s Done 05/13/2011 16:22:41 00012 k038 ./full_v1 -log_s Done 05/13/2011 16:22:41 00013 k038 ./full_v1 -log_s Done 05/13/2011 16:22:41 00014 k038 ./full_v1 -log_s Done 05/13/2011 16:22:41 00015 k038 ./full_v1 -log_s Done 05/13/2011 16:22:41 00016 k006 ./full_v1 -log_s Done 05/13/2011 16:22:41 00017 k006 ./full_v1 -log_s Done 05/13/2011 16:22:41 00018 k006 ./full_v1 -log_s Done 05/13/2011 16:22:41 00019 k006 ./full_v1 -log_s Done 05/13/2011 16:22:41 00020 k006 ./full_v1 -log_s Done 05/13/2011 16:22:41 00021 k006 ./full_v1 -log_s Done 05/13/2011 16:22:41 00022 k006 ./full_v1 -log_s Done 05/13/2011 16:22:41 00023 k006 ./full_v1 -log_s Done 05/13/2011 16:22:41 00024 k041 ./full_v1 -log_s Done 05/13/2011 16:22:41 00025 k041 ./full_v1 -log_s Done 05/13/2011 16:22:41 00026 k041 ./full_v1 -log_s Done 05/13/2011 16:22:41 00027 k041 ./full_v1 -log_s Done 05/13/2011 16:22:41 00028 k041 ./full_v1 -log_s Done 05/13/2011 16:22:41 00029 k041 ./full_v1 -log_s Done 05/13/2011 16:22:41 00030 k041 ./full_v1 -log_s Done 05/13/2011 16:22:41 00031 k041 ./full_v1 -log_s Done 05/13/2011 16:22:41 00032 k003 ./full_v1 -log_s Done 05/13/2011 16:22:41 00033 k003 ./full_v1 -log_s Done 05/13/2011 16:22:41 00034 k003 ./full_v1 -log_s Done 05/13/2011 16:22:41 00035 k003 ./full_v1 -log_s Done 05/13/2011 16:22:41 00036 k003 ./full_v1 -log_s Done 05/13/2011 16:22:41 00037 k003 ./full_v1 -log_s Done 05/13/2011 16:22:41 00038 k003 ./full_v1 -log_s Done 05/13/2011 16:22:41 00039 k003 ./full_v1 -log_s Done 05/13/2011 16:22:41 00040 k015 ./full_v1 -log_s Done 05/13/2011 16:22:41 00041 k015 ./full_v1 -log_s Done 05/13/2011 16:22:41 00042 k015 ./full_v1 -log_s Done 05/13/2011 16:22:41 00043 k015 ./full_v1 -log_s Done 05/13/2011 16:22:41 00044 k015 ./full_v1 -log_s Done 05/13/2011 16:22:41 00045 k015 ./full_v1 -log_s Done 05/13/2011 16:22:41 00046 k015 ./full_v1 -log_s Done 05/13/2011 16:22:41 00047 k015 ./full_v1 -log_s Done 05/13/2011 16:22:41 00048 k050 ./full_v1 -log_s Done 05/13/2011 16:22:41 00049 k050 ./full_v1 -log_s Done 05/13/2011 16:22:41 00050 k050 ./full_v1 -log_s Done 05/13/2011 16:22:41 00051 k050 ./full_v1 -log_s Done 05/13/2011 16:22:41 00052 k050 ./full_v1 -log_s Done 05/13/2011 16:22:41 00053 k050 ./full_v1 -log_s Done 05/13/2011 16:22:41 00054 k050 ./full_v1 -log_s Done 05/13/2011 16:22:41 00055 k050 ./full_v1 -log_s Done 05/13/2011 16:22:41 00056 k017 ./full_v1 -log_s Done 05/13/2011 16:22:41 00057 k017 ./full_v1 -log_s Done 05/13/2011 16:22:41 00058 k017 ./full_v1 -log_s Done 05/13/2011 16:22:41 00059 k017 ./full_v1 -log_s Done 05/13/2011 16:22:41 00060 k017 ./full_v1 -log_s Done 05/13/2011 16:22:41 00061 k017 ./full_v1 -log_s Done 05/13/2011 16:22:41 00062 k017 ./full_v1 -log_s Done 05/13/2011 16:22:41 00063 k017 ./full_v1 -log_s Done 05/13/2011 16:22:41 00064 k042 ./full_v1 -log_s Done 05/13/2011 16:22:41 00065 k042 ./full_v1 -log_s Done 05/13/2011 16:22:41 00066 k042 ./full_v1 -log_s Done 05/13/2011 16:22:41 00067 k042 ./full_v1 -log_s Done 05/13/2011 16:22:41 00068 k042 ./full_v1 -log_s Done 05/13/2011 16:22:41 00069 k042 ./full_v1 -log_s Done 05/13/2011 16:22:41 00070 k042 ./full_v1 -log_s Done 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16:22:41 00146 k027 ./full_v1 -log_s Done 05/13/2011 16:22:41 00147 k027 ./full_v1 -log_s Done 05/13/2011 16:22:41 00148 k027 ./full_v1 -log_s Done 05/13/2011 16:22:41 00149 k027 ./full_v1 -log_s Done 05/13/2011 16:22:41 00150 k027 ./full_v1 -log_s Done 05/13/2011 16:22:41 00151 k027 ./full_v1 -log_s Done 05/13/2011 16:22:41 00152 k054 ./full_v1 -log_s Done 05/13/2011 16:22:41 00153 k054 ./full_v1 -log_s Done 05/13/2011 16:22:41 00154 k054 ./full_v1 -log_s Done 05/13/2011 16:22:41 00155 k054 ./full_v1 -log_s Done 05/13/2011 16:22:41 00156 k054 ./full_v1 -log_s Done 05/13/2011 16:22:41 00157 k054 ./full_v1 -log_s Done 05/13/2011 16:22:41 00158 k054 ./full_v1 -log_s Done 05/13/2011 16:22:41 00159 k054 ./full_v1 -log_s Done 05/13/2011 16:22:41 00160 k053 ./full_v1 -log_s Done 05/13/2011 16:22:41 00161 k053 ./full_v1 -log_s Done 05/13/2011 16:22:41 00162 k053 ./full_v1 -log_s Done 05/13/2011 16:22:41 00163 k053 ./full_v1 -log_s Done 05/13/2011 16:22:41 00164 k053 ./full_v1 -log_s Done 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./full_v1 -log_s Done 05/13/2011 16:22:41 00203 k035 ./full_v1 -log_s Done 05/13/2011 16:22:41 00204 k035 ./full_v1 -log_s Done 05/13/2011 16:22:41 00205 k035 ./full_v1 -log_s Done 05/13/2011 16:22:41 00206 k035 ./full_v1 -log_s Done 05/13/2011 16:22:41 00207 k035 ./full_v1 -log_s Done 05/13/2011 16:22:41 00208 k013 ./full_v1 -log_s Done 05/13/2011 16:22:41 00209 k013 ./full_v1 -log_s Done 05/13/2011 16:22:41 00210 k013 ./full_v1 -log_s Done 05/13/2011 16:22:41 00211 k013 ./full_v1 -log_s Done 05/13/2011 16:22:41 00212 k013 ./full_v1 -log_s Done 05/13/2011 16:22:41 00213 k013 ./full_v1 -log_s Done 05/13/2011 16:22:41 00214 k013 ./full_v1 -log_s Done 05/13/2011 16:22:41 00215 k013 ./full_v1 -log_s Done 05/13/2011 16:22:41 00216 k001 ./full_v1 -log_s Done 05/13/2011 16:22:41 00217 k001 ./full_v1 -log_s Done 05/13/2011 16:22:41 00218 k001 ./full_v1 -log_s Done 05/13/2011 16:22:41 00219 k001 ./full_v1 -log_s Done 05/13/2011 16:22:41 00220 k001 ./full_v1 -log_s Done 05/13/2011 16:22:41 00221 k001 ./full_v1 -log_s Done 05/13/2011 16:22:41 00222 k001 ./full_v1 -log_s Done 05/13/2011 16:22:41 00223 k001 ./full_v1 -log_s Done 05/13/2011 16:22:41 00224 k036 ./full_v1 -log_s Done 05/13/2011 16:22:41 00225 k036 ./full_v1 -log_s Done 05/13/2011 16:22:41 00226 k036 ./full_v1 -log_s Done 05/13/2011 16:22:41 00227 k036 ./full_v1 -log_s Done 05/13/2011 16:22:41 00228 k036 ./full_v1 -log_s Done 05/13/2011 16:22:41 00229 k036 ./full_v1 -log_s Done 05/13/2011 16:22:41 00230 k036 ./full_v1 -log_s Done 05/13/2011 16:22:41 00231 k036 ./full_v1 -log_s Done 05/13/2011 16:22:41 00232 k026 ./full_v1 -log_s Done 05/13/2011 16:22:41 00233 k026 ./full_v1 -log_s Done 05/13/2011 16:22:41 00234 k026 ./full_v1 -log_s Done 05/13/2011 16:22:41 00235 k026 ./full_v1 -log_s Done 05/13/2011 16:22:41 00236 k026 ./full_v1 -log_s Done 05/13/2011 16:22:41 00237 k026 ./full_v1 -log_s Done 05/13/2011 16:22:41 00238 k026 ./full_v1 -log_s Done 05/13/2011 16:22:41 00239 k026 ./full_v1 -log_s Done 05/13/2011 16:22:41 00240 k039 ./full_v1 -log_s Done 05/13/2011 16:22:41 00241 k039 ./full_v1 -log_s Done 05/13/2011 16:22:41 00242 k039 ./full_v1 -log_s Done 05/13/2011 16:22:41 00243 k039 ./full_v1 -log_s Done 05/13/2011 16:22:41 00244 k039 ./full_v1 -log_s Done 05/13/2011 16:22:41 00245 k039 ./full_v1 -log_s Done 05/13/2011 16:22:41 00246 k039 ./full_v1 -log_s Done 05/13/2011 16:22:41 00247 k039 ./full_v1 -log_s Done 05/13/2011 16:22:41 00248 k014 ./full_v1 -log_s Done 05/13/2011 16:22:41 00249 k014 ./full_v1 -log_s Done 05/13/2011 16:22:41 00250 k014 ./full_v1 -log_s Done 05/13/2011 16:22:41 00251 k014 ./full_v1 -log_s Done 05/13/2011 16:22:41 00252 k014 ./full_v1 -log_s Done 05/13/2011 16:22:41 00253 k014 ./full_v1 -log_s Done 05/13/2011 16:22:41 00254 k014 ./full_v1 -log_s Done 05/13/2011 16:22:41 00255 k014 ./full_v1 -log_s Done 05/13/2011 16:22:41 PS: Read file <185433.err> for stderr output of this job.