Commit c8cd584a authored by Naumann, Andreas's avatar Naumann, Andreas
Browse files

speicherfehler in robinbc, ausgabe bei zu kleinem element in 1d, compiler...

speicherfehler in robinbc, ausgabe bei zu kleinem element in 1d, compiler fehler in rosenbrock und itl_oemsolver.hh
parent 9a7aa655
dimension of world: 3
elliptMesh->macro file name: ./macro/macro.stand.3d
elliptMesh->global refinements: 0
ellipt->mesh: elliptMesh
ellipt->dim: 3
ellipt->polynomial degree: 2
ellipt->solver: cg
ellipt->solver->max iteration: 1000
ellipt->solver->tolerance: 1.e-8
ellipt->solver->info: 2
ellipt->solver->left precon: diag
ellipt->solver->right precon: no
ellipt->estimator: residual
ellipt->estimator->error norm: 1 % 1: H1_NORM, 2: L2_NORM
ellipt->estimator->C1: 0.01 % constant of jump residual
ellipt->marker->strategy: 3 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
ellipt->marker->MSGamma: 0.5
ellipt->adapt->tolerance: 1e-4
ellipt->adapt->max iteration: 4
ellipt->adapt->info: 8
ellipt->adapt->refine bisections: 3
ellipt->output->filename: ellipt
ellipt->output->ParaView format: 1
ellipt->output->TecPlot format: 0
ellipt->output->TecPlot ext: .tec
ellipt->output->AMDiS format: 0
ellipt->output->AMDiS mesh ext: .mesh
ellipt->output->AMDiS data ext: .dat
ellipt->output->append index: 0
ellipt->output->index length: 6
ellipt->output->index decimals: 3
WAIT: 0
dimension of world: 1
heatMesh->macro file name: ./macro/macro.stand.1d
heatMesh->global refinements: 9
heat->space->polynomial degree: 1
heat->space->mesh: heatMesh
heat->space->solver: cg
heat->space->solver->max iteration: 1000
heat->space->solver->tolerance: 1.e-8
heat->space->solver->info: 8
heat->space->solver->left precon: diag
heat->space->solver->right precon: no
heat->space->estimator: residual
heat->space->estimator->C0: 1.0
heat->space->estimator->C1: 1.0
heat->space->estimator->C3: 1.0
heat->theta: 1.0
heat->adapt->tolerance: 0.01
heat->adapt->timestep: 0.01
heat->adapt->start time: 0.0
heat->adapt->end time: 1.0
heat->adapt->rel space error: 0.5
heat->adapt->rel time error: 0.5
heat->adapt->max iteration: 2
heat->adapt->info: 8
heat->adapt->coarsen allowed: 1 % 0|1
heat->adapt->refine bisections: 1
heat->adapt->coarsen bisections: 1
heat->adapt->strategy: 0 % 0=explicit, 1=implicit
heat->adapt->max iteration: 100
heat->initial->marker->strategy: 3 % 0=none, 1=GR, 2=MS, 3=ES, 4=GERS
heat->initial->adapt->max iteration: 10
heat->initial->adapt->info: 8
heat->space->dim: 1
heat->space->marker->strategy: 3 % 0=none, 1=GR, 2=MS, 3=ES, 4=GERS
heat->space->marker->ESTheta: 0.9
heat->space->marker->ESThetaC: 0.05
heat->space->marker->info: 8
heat->space->output->filename: heat
heat->space->output->ParaView format: 0
heat->space->output->TecPlot format: 0
heat->space->output->TecPlot ext: .tec
heat->space->output->AMDiS format: 0
heat->space->output->AMDiS mesh ext: .mesh
heat->space->output->AMDiS data ext: .dat
heat->space->output->write every i-th timestep: 1
heat->space->output->append index: 1
heat->space->output->index length: 6
heat->space->output->index decimals: 3
WAIT: 0
dimension of world: 2
heatMesh->macro file name: ./macro/macro.stand.2d
heatMesh->global refinements: 0
heat->space->polynomial degree: 1
heat->space->dim: 2
heat->space->mesh: heatMesh
heat->space->solver: umfpack
heat->space->solver->max iteration: 1000
heat->space->solver->tolerance: 1.e-8
heat->space->solver->info: 2
heat->space->solver->left precon: no
heat->space->solver->right precon: no
heat->space->estimator: residual
heat->space->estimator->C0: 0.1
heat->space->estimator->C1: 0.1
heat->theta: 1.0
heat->adapt->timestep: 0.01
heat->adapt->min timestep: 0.01
heat->adapt->start time: 0.0
heat->adapt->end time: 0.05
heat->adapt->tolerance: 0.0001
heat->adapt->rel space error: 0.5
heat->adapt->rel time error: 0.5
heat->adapt->time theta 1: 1.0
heat->adapt->time theta 2: 0.3
heat->adapt->strategy: 1 % 0=explicit, 1=implicit
heat->adapt->time delta 1: 0.7071
heat->adapt->time delta 2: 1.4142
heat->adapt->max iteration: 100
heat->adapt->coarsen allowed: 1 % 0|1
heat->adapt->refine bisections: 1
heat->adapt->coarsen bisections: 1
%heat->adapt->info: 2
heat->space->marker->strategy: 4 % 0=none, 1=GR, 2=MS, 3=ES, 4=GERS
heat->space->marker->MSGamma: 0.5
heat->space->marker->MSGammaC: 0.1
heat->space->output->ParaView animation: 0
heat->space->output->filename: output/heat
heat->space->output->ParaView format: 0
heat->space->output->write every i-th timestep: 1
heat->space->output->append index: 1
heat->space->output->index length: 6
heat->space->output->index decimals: 3
WAIT: 0
dimension of world: 3
heatMesh->macro file name: ./macro/macro.stand.3d
heatMesh->global refinements: 3
heat->space->polynomial degree: 2
heat->space->dim: 3
heat->space->mesh: heatMesh
heat->space->solver: umfpack
heat->space->solver->max iteration: 1000
heat->space->solver->tolerance: 1.e-8
heat->space->solver->info: 2
heat->space->solver->left precon: no
heat->space->solver->right precon: no
heat->space->estimator: residual
heat->space->estimator->C0: 0.1
heat->space->estimator->C1: 0.1
heat->theta: 1.0
heat->adapt->timestep: 0.01
heat->adapt->min timestep: 0.01
heat->adapt->start time: 0.0
heat->adapt->end time: 0.05
heat->adapt->tolerance: 0.01
heat->adapt->rel space error: 0.5
heat->adapt->rel time error: 0.5
heat->adapt->strategy: 0 % 0=explicit, 1=implicit
heat->adapt->max iteration: 10
%heat->adapt->info: 2
heat->initial->adapt->strategy: 2 % 0=none, 1=GR, 2=MS, 3=ES, 4=GERS
heat->initial->adapt->max iteration: 10
%heat->initial->adapt->info: 2
heat->space->marker->strategy: 4 % 0=none, 1=GR, 2=MS, 3=ES, 4=GERS
heat->space->marker->ESTheta: 0.9
heat->space->marker->ESThetaC: 0.05
heat->adapt->max iteration: 2
heat->adapt->coarsen allowed: 1 % 0|1
%heat->adapt->info: 2
heat->adapt->refine bisections: 3
heat->adapt->coarsen bisections: 3
heat->space->output->filename: heat
heat->space->output->ParaView format: 0
heat->space->output->TecPlot format: 0
heat->space->output->TecPlot ext: .tec
heat->space->output->AMDiS format: 0
heat->space->output->AMDiS mesh ext: .mesh
heat->space->output->AMDiS data ext: .dat
heat->space->output->write every i-th timestep: 100
heat->space->output->append index: 1
heat->space->output->index length: 6
heat->space->output->index decimals: 3
WAIT: 0
dimension of world: 2
neumannMesh->macro file name: ./macro/neumann.macro.2d
neumannMesh->global refinements: 0
neumann->mesh: neumannMesh
neumann->dim: 2
neumann->polynomial degree: 1
neumann->solver: cg
neumann->solver->max iteration: 1000
neumann->solver->tolerance: 1.e-8
neumann->solver->left precon: diag
neumann->estimator: residual
neumann->estimator->error norm: 2 % 1: H1_NORM, 2: L2_NORM
neumann->estimator->C0: 1.0 % constant of element residual
neumann->estimator->C1: 1.0 % constant of jump residual
neumann->marker->strategy: 2 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
neumann->marker->MSGamma: 0.5
neumann->adapt->tolerance: 1e-2
neumann->adapt->max iteration: 100
neumann->adapt->refine bisections: 2
neumann->output->filename: output/neumann
neumann->output->ParaView format: 1
neumann->output->AMDiS format: 0
neumann->output->AMDiS mesh ext: .mesh
neumann->output->AMDiS data ext: .dat
dimension of world: 2
elliptMesh->macro file name: ./macro/macro.stand.2d
elliptMesh->global refinements: 4
ellipt->mesh: elliptMesh
ellipt->dim: 2
ellipt->polynomial degree: 1
ellipt->parallel->upper part threshold: 2
ellipt->parallel->lower part threshold: 0.5
ellipt->parallel->global coarse grid level: 0
ellipt->parallel->local coarse grid level: 4
ellipt->parallel->global refinements: 0
ellipt->solver: cg
ellipt->solver->max iteration: 10000
ellipt->solver->tolerance: 1.e-8
ellipt->solver->info: 2
ellipt->solver->left precon: diag
ellipt->solver->right precon: no
ellipt->estimator: residual
ellipt->estimator->error norm: 1 % 1: H1_NORM, 2: L2_NORM
ellipt->estimator->C0: 0.1 % constant of element residual
ellipt->estimator->C1: 0.0 % constant of jump residual
ellipt->marker->strategy: 2 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
ellipt->marker->MSGamma: 0.5
ellipt->adapt->tolerance: 1e-3
ellipt->adapt->max iteration: 8
ellipt->adapt->refine bisections: 2
ellipt->output->filename: output/ellipt
ellipt->output->ParaView format: 1
ellipt->output->TecPlot format: 0
ellipt->output->TecPlot ext: .plt
ellipt->output->AMDiS format: 0
ellipt->output->AMDiS mesh ext: .mesh
ellipt->output->AMDiS data ext: .dat
ellipt->output->append index: 0
ellipt->output->index length: 6
ellipt->output->index decimals: 3
WAIT: 0
% ---------------------------------------------------------------------------
% Parameters for PartitionMesh
% ---------------------------------------------------------------------------
partitionMesh->number of partitions: 4
partitionMesh->size of overlap: 1
partitionMesh->result->output->filename: output/partition.dat
partition->output->filename: output/partition
partition->output->ParaView format: 1
partition->output->TecPlot format: 0
partition->output->TecPlot ext: .plt
partition->output->AMDiS format: 0
partition->output->AMDiS mesh-dat ext: .elem.mesh
partition->output->append index: 0
partition->output->index length: 1
partition->output->index decimals: 0
elementSort->output->filename: output/elementSort
elementSort->output->ParaView format: 1
elementSort->output->TecPlot format: 0
elementSort->output->TecPlot ext: .plt
elementSort->output->AMDiS format: 0
elementSort->output->AMDiS mesh-dat ext: .elem.mesh
elementSort->output->append index: 1
elementSort->output->index length: 2
elementSort->output->index decimals: 1
H1Error->output->filename: output/H1Error
H1Error->output->ParaView format: 1
H1Error->output->TecPlot format: 0
H1Error->output->TecPlot ext: .plt
H1Error->output->AMDiS format: 0
H1Error->output->AMDiS mesh-dat ext: .elem.mesh
H1Error->output->append index: 0
H1Error->output->index length: 1
H1Error->output->index decimals: 0
%% --> parameters which need not to be set (default values exist)
partitionMesh->use weighted dual laplacian: 0 % 0|1 (default: 0)
partitionMesh->use error vector: 1 % 0|1 (default: 1)
partitionMesh->use LAPACK for eigenvalue calculation: 1 % 0|1
% (default: 1)
partitionMesh->unconnected domains->use sign cut: 0 % 0|1
% (default: 0)
partitionMesh->info: 2 % 0 - print nothing
% 2 - print partitioning result
% 5 - print short comments on
% partitioning process
% 10 - print detailed information on
% partitioning process
% (default: 2)
partitionMesh->print detailed partitioning data to files: 0 % 0|1
% prints dual laplacian matrix, partitionVec, fiedler vector,
% ... to files
% (default: 0)
partitionMesh->print details->output dir: output % (default: output)
Fiedler vector->info: 2 % 0 - print nothing
% 10 - print details on eigenvalue
% calculation
% (default: 2)
dimension of world: 2
heatMesh->macro file name: ./macro/macro.stand.2d
heatMesh->global refinements: 6
heat->space->polynomial degree: 1
heat->space->mesh: heatMesh
heat->parallel->upper part threshold: 1.0
heat->parallel->lower part threshold: 1.0
heat->parallel->adaptive thresholds: 0
heat->parallel->threshold inc factor: 2.0
heat->parallel->threshold dec factor: 0.5
heat->parallel->repart time factor: 10.0
heat->parallel->global coarse grid level: 0
heat->parallel->local coarse grid level: 4
heat->parallel->global refinements: 0
heat->space->solver: cg
heat->space->solver->use galerkin operator: 1
heat->space->solver->max iteration: 1000
heat->space->solver->tolerance: 1.e-8
heat->space->solver->info: 8
heat->space->solver->left precon: diag
heat->space->solver->right precon: no
heat->space->estimator: residual
heat->space->estimator->C0: 1.0
heat->space->estimator->C1: 0.0
heat->space->estimator->C3: 0.0
heat->adapt->timestep: 0.1
heat->adapt->min timestep: 0.1
heat->adapt->max timestep: 0.1
heat->adapt->start time: 0.0
heat->adapt->end time: 1.0
heat->adapt->rel space error: 1.0
heat->adapt->rel time error: 1.0
heat->adapt->strategy: 1 % 0=explicit, 1=implicit
heat->adapt->max iteration: 1000
heat->adapt->tolerance: 1e-3
heat->adapt->info: 8
heat->space->dim: 2
heat->adapt->coarsen allowed: 1 % 0|1
heat->adapt->refine bisections: 2
heat->adapt->coarsen bisections: 2
heat->space->marker->strategy: 2 % 0=none, 1=GR, 2=MS, 3=ES, 4=GERS
heat->space->marker->MSGamma: 0.5
heat->space->marker->MSGammaC: 0.1
heat->space->output->filename: output/heat
heat->space->output->ParaView format: 1
heat->space->output->AMDiS format: 0
heat->space->output->AMDiS mesh ext: .mesh
heat->space->output->AMDiS data ext: .dat
heat->space->output->write every i-th timestep: 1
heat->space->output->append index: 1
heat->space->output->index length: 6
heat->space->output->index decimals: 3
WAIT: 0
partition->output->filename: output/partition
partition->output->ParaView format: 0
partition->output->TecPlot format: 0
partition->output->TecPlot ext: .plt
partition->output->AMDiS format: 0
partition->output->AMDiS mesh-dat ext: .elem.mesh
partition->output->append index: 0
partition->output->index length: 1
partition->output->index decimals: 0
dimension of world: 2
AMDiS mesh file extension: .mesh
AMDiS value file extension: .dat
TecPlot file extension: .tec
time index length: 7
time index decimals: 3
vecelliptMesh->macro file name: ./macro/macro.stand.2d
vecelliptMesh->global refinements: 6
vecellipt->mesh: vecelliptMesh
vecellipt->dim: 2
vecellipt->parallel->upper part threshold: 2.0
vecellipt->parallel->lower part threshold: 0.5
vecellipt->components: 2
vecellipt->refinement sets: 1
vecellipt->refinement set[0]->name: refinementSet0
vecellipt->refinement set[0]->output->AMDiS: 1
vecellipt->refinement set[0]->output->TecPlot: 1
vecellipt->refinement set[0]->output->append time index: 1
vecellipt->refinement set of component[0]: 0
vecellipt->refinement set of component[1]: 0
vecellipt->polynomial degree[0]: 1
vecellipt->polynomial degree[1]: 1
vecellipt->refinement set[0]: 1
vecellipt->refinement set[1]: 1
vecellipt->parallelizer->initial max iterations: 6
vecellipt->parallelizer->initial tolerance: 1e-8
vecellipt->parallelizer->estimator: cond % cond, prob, ...
vecellipt->parallelizer->estimator->error norm: 1
vecellipt->parallelizer->estimator->C0: 0.1
vecellipt->parallelizer->estimator->C1: 0.0
vecellipt->parallelizer->marker strategy: 5 % 5:condES, 6:problems marker
vecellipt->parallelizer->marker->MSGamma: 0.5
vecellipt->parallelizer->marker->max partition DOFs: 0
vecellipt->solver: bicgstab
vecellipt->solver->smoother: gs
vecellipt->solver->smoother->omega: 1.0
vecellipt->solver->coarse level smoothing steps: 1
vecellipt->solver->pre smoothing steps: 1
vecellipt->solver->post smoothing steps: 1
vecellipt->solver->max iteration: 100
vecellipt->solver->tolerance: 1.e-8
vecellipt->solver->info: 2
vecellipt->solver->left precon: diag
vecellipt->solver->right precon: no
vecellipt->estimator[0]: residual
vecellipt->estimator[0]->error norm: 1 % 1: H1_NORM, 2: L2_NORM
vecellipt->estimator[0]->C0: 0.1 % constant of element residual
vecellipt->estimator[0]->C1: 0.1 % constant of jump residual
vecellipt->marker[0]->strategy: 2 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
vecellipt->marker[0]->MSGamma: 0.5
vecellipt->estimator[1]: residual
vecellipt->estimator[1]->error norm: 1 % 1: H1_NORM, 2: L2_NORM
vecellipt->estimator[1]->C0: 0.1 % constant of element residual
vecellipt->estimator[1]->C1: 0.1 % constant of jump residual
vecellipt->marker[1]->strategy: 2 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
vecellipt->marker[1]->MSGamma: 0.5
vecellipt->adapt->max iteration: 2
vecellipt->adapt->info: 8
vecellipt->adapt[0]->refine bisections: 2
vecellipt->adapt[1]->refine bisections: 2
vecellipt->adapt[0]->tolerance: 1e-4
vecellipt->adapt[1]->tolerance: 1e-4
vecellipt->output->filename: output/vecellipt
vecellipt->output->ParaView format: 1
vecellipt->info: 8
WAIT: 0
partition->output->filename: output/partition
partition->output->ParaView format: 1
partition->output->TecPlot format: 0
partition->output->TecPlot ext: .plt
partition->output->AMDiS format: 0
partition->output->AMDiS mesh-dat ext: .elem.mesh
partition->output->append index: 0
partition->output->index length: 1
partition->output->index decimals: 0
dimension of world: 3
parametricMesh->macro file name: ./macro/parametric_macro.3d
parametricMesh->global refinements: 0
parametric->mesh: parametricMesh
parametric->dim: 2
parametric->polynomial degree: 2
parametric->solver: cg
parametric->solver->max iteration: 100
parametric->solver->tolerance: 1.e-8
parametric->solver->info: 2
parametric->solver->left precon: diag
parametric->solver->right precon: no
parametric->estimator: residual % residual, recovery
parametric->estimator->error norm: 1 % 1: H1_NORM, 2: L2_NORM
parametric->estimator->C1: 0.1 % constant of jump residual
parametric->marker->strategy: 2 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
parametric->marker->MSGamma: 0.5
parametric->adapt->tolerance: 1e-8
parametric->adapt->refine bisections: 1
parametric->adapt->max iteration: 8
parametric->adapt->info: 8