Commit f644687d authored by Thomas Witkowski's avatar Thomas Witkowski
Browse files

Removed some demos that are not working anymore.

parent 1964a979
dimension of world: 2
mpcci1Mesh->macro file name: ./macro/smi.macro.2d
mpcci1Mesh->global refinements: 0
mpcci1->mesh: mpcci1Mesh
mpcci1->dim: 2
mpcci1->polynomial degree: 1
mpcci1->solver: cg
mpcci1->solver->max iteration: 1000
mpcci1->solver->tolerance: 1.e-8
mpcci1->solver->info: 2
mpcci1->solver->left precon: diag
mpcci1->solver->right precon: no
mpcci1->estimator: residual
mpcci1->estimator->error norm: 1 % 1: H1_NORM, 2: L2_NORM
mpcci1->estimator->C0: 0.1 % constant of element residual
mpcci1->estimator->C1: 0.1 % constant of jump residual
mpcci1->marker->strategy: 2 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
mpcci1->marker->MSGamma: 0.5
mpcci1->adapt->tolerance: 1e-8
mpcci1->adapt->max iteration: 100
mpcci1->adapt->refine bisections: 2
mpcci1->output->filename: mpcci1
mpcci1->output->ParaView format: 1
mpcci1->output->AMDiS format: 0
mpcci1->output->AMDiS mesh ext: .mesh
mpcci1->output->AMDiS data ext: .dat
mpcci1->output->append index: 0
mpcci1->output->index length: 6
mpcci1->output->index decimals: 3
WAIT: 0
dimension of world: 2
mpcci2Mesh->macro file name: ./macro/mpcci.macro.2d
mpcci2Mesh->global refinements: 8
mpcci2->mesh: mpcci2Mesh
mpcci2->dim: 2
mpcci2->polynomial degree: 1
mpcci2->solver: cg
mpcci2->solver->max iteration: 1000
mpcci2->solver->tolerance: 1.e-8
mpcci2->solver->info: 2
mpcci2->solver->left precon: diag
mpcci2->solver->right precon: no
mpcci2->estimator: residual
mpcci2->estimator->error norm: 1 % 1: H1_NORM, 2: L2_NORM
mpcci2->estimator->C0: 0.1 % constant of element residual
mpcci2->estimator->C1: 0.1 % constant of jump residual
mpcci2->marker->strategy: 2 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
mpcci2->marker->MSGamma: 0.5
mpcci2->adapt->tolerance: 1e-2
mpcci2->adapt->max iteration: 1
mpcci2->adapt->refine bisections: 2
mpcci2->output->filename: mpcci2
mpcci2->output->ParaView format: 1
mpcci2->output->AMDiS format: 0
mpcci2->output->AMDiS mesh ext: .mesh
mpcci2->output->AMDiS data ext: .dat
mpcci2->output->append index: 0
mpcci2->output->index length: 6
mpcci2->output->index decimals: 3
WAIT: 1
dimension of world: 2
mpccitestMesh->macro file name: ./macro/smi.macro.2d
mpccitestMesh->global refinements: 0
mpccitest->mesh: mpccitestMesh
mpccitest->dim: 2
mpccitest->polynomial degree: 1
mpccitest->solver: cg
mpccitest->solver->max iteration: 1000
mpccitest->solver->tolerance: 1.e-8
mpccitest->solver->info: 2
mpccitest->solver->left precon: diag
mpccitest->solver->right precon: no
mpccitest->estimator: residual
mpccitest->estimator->error norm: 1 % 1: H1_NORM, 2: L2_NORM
mpccitest->estimator->C0: 0.1 % constant of element residual
mpccitest->estimator->C1: 0.1 % constant of jump residual
mpccitest->marker->strategy: 2 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
mpccitest->marker->MSGamma: 0.5
mpccitest->adapt->tolerance: 1e-2
mpccitest->adapt->max iteration: 1
mpccitest->adapt->refine bisections: 2
mpccitest->output->filename: mpccitest
mpccitest->output->ParaView format: 1
mpccitest->output->append index: 0
mpccitest->output->index length: 6
mpccitest->output->index decimals: 3
WAIT: 1
dimension of world: 2
navierstokesMesh->macro file name: ./macro/navierstokes.macro.2d
navierstokesMesh->global refinements: 8
navierstokes->space->mesh: navierstokesMesh
navierstokes->space->dim: 2
navierstokes->space->components: 3
navierstokes->space->polynomial degree[0]: 1
navierstokes->space->polynomial degree[1]: 1
navierstokes->space->polynomial degree[2]: 1
navierstokes->adapt->timestep: 0.05
navierstokes->adapt->strategy: 0 % 0=explicit, 1=implicit
navierstokes->adapt->max iteration: 10
navierstokes->adapt->max timestep iteration: 10
navierstokes->initial->marker[0]->strategy: 2 % 0=none, 1=GR, 2=MS, 3=ES, 4=GERS
navierstokes->initial->marker[1]->strategy: 2 % 0=none, 1=GR, 2=MS, 3=ES, 4=GERS
navierstokes->initial->marker[2]->strategy: 0 % 0=none, 1=GR, 2=MS, 3=ES, 4=GERS
navierstokes->initial->adapt->max iteration: 10
navierstokes->adapt[0]->refine bisections: 2
navierstokes->adapt[0]->coarsen bisections: 2
navierstokes->adapt[1]->refine bisections: 2
navierstokes->adapt[1]->coarsen bisections: 2
navierstokes->adapt[0]->tolerance: 0.01
navierstokes->adapt[0]->rel space error: 0.5
navierstokes->adapt[0]->rel time error: 0.5
navierstokes->adapt[0]->info: 8
navierstokes->adapt[0]->coarsen allowed: 0 % 0|1
navierstokes->adapt[1]->tolerance: 0.01
navierstokes->adapt[1]->rel space error: 0.5
navierstokes->adapt[1]->rel time error: 0.5
navierstokes->adapt[1]->info: 8
navierstokes->adapt[1]->coarsen allowed: 1 % 0|1
navierstokes->adapt[2]->tolerance: 0.1
navierstokes->adapt[2]->rel space error: 0.5
navierstokes->adapt[2]->rel time error: 0.5
navierstokes->adapt[2]->info: 8
navierstokes->adapt[2]->coarsen allowed: 1 % 0|1
navierstokes->space->solver: bicgstab
navierstokes->space->solver->max iteration: 1000
navierstokes->space->solver->tolerance: 1.e-8
navierstokes->space->solver->info: 5
navierstokes->space->solver->left precon: ilu
navierstokes->space->solver->right precon: no
navierstokes->space->estimator[0]: residual
navierstokes->space->estimator[0]->C0: 1.0
navierstokes->space->estimator[0]->C1: 1.0
navierstokes->space->estimator[0]->C3: 1.0
navierstokes->space->estimator[1]: residual
navierstokes->space->estimator[1]->C0: 1.0
navierstokes->space->estimator[1]->C1: 1.0
navierstokes->space->estimator[1]->C3: 1.0
navierstokes->space->marker[0]->strategy: 3 % 0=none, 1=GR, 2=MS, 3=ES, 4=GERS
navierstokes->space->marker[0]->ESTheta: 0.9
navierstokes->space->marker[0]->ESThetaC: 0.05
navierstokes->space->marker[0]->info: 8
navierstokes->space->marker[1]->strategy: 3 % 0=none, 1=GR, 2=MS, 3=ES, 4=GERS
navierstokes->space->marker[1]->ESTheta: 0.9
navierstokes->space->marker[1]->ESThetaC: 0.05
navierstokes->space->marker[1]->info: 8
navierstokes->space->output->filename: navierstokes_
navierstokes->space->output->ParaView format: 1
navierstokes->space->output->append index: 1
navierstokes->space->output->index length: 6
navierstokes->space->output->index decimals: 3
WAIT: 0
nu: 0.1
epsilon: 1.0
dimension of world: 1
nonlinMesh->macro file name: ./macro/macro_big.stand.1d
nonlinMesh->global refinements: 1
nonlin->mesh: nonlinMesh
nonlin->dim: 1
nonlin->polynomial degree: 1
nonlin->newton->tolerance: 1e-4
nonlin->newton->max iteration: 10
nonlin->solver: cg
nonlin->solver->max iteration: 1000
nonlin->solver->tolerance: 1.e-8
nonlin->solver->left precon: diag
nonlin->estimator: residual
nonlin->estimator->error norm: 1 % 1: H1_NORM, 2: L2_NORM
nonlin->estimator->C0: 0.1 % constant of element residual
nonlin->estimator->C1: 0.1 % constant of jump residual
nonlin->marker->strategy: 0 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
nonlin->marker->MSGamma: 0.9
nonlin->adapt->tolerance: 1.e-8
nonlin->adapt->max iteration: 0
nonlin->adapt->refine bisections: 2
nonlin->output->filename: output/nonlin
nonlin->output->ParaView format: 1
nonlin->output->AMDiS format: 0
nonlin->output->AMDiS mesh ext: .mesh
nonlin->output->AMDiS data ext: .dat
dimension of world: 2
nonlinMesh->macro file name: ./macro/macro_big.stand.2d
nonlinMesh->global refinements: 0
nonlin->mesh: nonlinMesh
nonlin->dim: 2
nonlin->polynomial degree: 1
nonlin->newton->tolerance: 1e-8
nonlin->newton->max iteration: 100
nonlin->solver: cg
nonlin->solver->max iteration: 1000
nonlin->solver->tolerance: 1.e-8
nonlin->solver->left precon: diag
nonlin->estimator: residual
nonlin->estimator->C0: 0.1
nonlin->estimator->C1: 0.1
nonlin->marker->strategy: 2
nonlin->marker->MSGamma: 0.5
nonlin->adapt->tolerance: 1e-3
nonlin->adapt->max iteration: 12
nonlin->output->filename: output/nonlin
nonlin->output->ParaView format: 1
nonlin->output->AMDiS format: 0
nonlin->output->AMDiS mesh ext: .mesh
nonlin->output->AMDiS data ext: .dat
dimension of world: 3
nonlinMesh->macro file name: ./macro/macro_big.stand.3d
nonlinMesh->global refinements: 0
nonlin->mesh: nonlinMesh
nonlin->dim: 3
nonlin->polynomial degree: 2
nonlin->nonlin solver: newton_fs
nonlin->nonlin solver->tolerance: 1.e-6 % tolerance for Newton
nonlin->nonlin solver->max iteration: 5 % maximal number of iterations of Newton
nonlin->nonlin solver->info: 6 % information level of Newton
nonlin->nonlin solver->restart: 20 % number of iterations for step size control
nonlin->nonlin solver->norm: 1 % 1:H1, 2:L2
nonlin->solver: bicgstab
nonlin->solver->max iteration: 1000
nonlin->solver->tolerance: 1.e-7
nonlin->solver->info: 0
nonlin->solver->left precon: diag
nonlin->solver->right precon: no
nonlin->estimator: residual
nonlin->estimator->error norm: 1 % 1: H1_NORM, 2: L2_NORM
nonlin->estimator->C0: 0.1 % constant of element residual
nonlin->estimator->C1: 0.1 % constant of jump residual
nonlin->marker->strategy: 2 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
nonlin->marker->MSGamma: 0.9
nonlin->adapt->tolerance: 1.e-8
nonlin->adapt->max iteration: 8
nonlin->adapt->info: 4
nonlin->adapt->refine bisections: 3
nonlin->adapt->coarsen bisections: 3
nonlin->output->filename: nonlin
nonlin->output->ParaView format: 1
nonlin->output->TecPlot format: 0
nonlin->output->TecPlot ext: .tec
nonlin->output->AMDiS format: 0
nonlin->output->AMDiS mesh ext: .mesh
nonlin->output->AMDiS data ext: .dat
nonlin->output->append index: 0
nonlin->output->index length: 6
nonlin->output->index decimals: 3
dimension of world: 1
vecnonlinMesh->macro file name: ./macro/macro_big.stand.1d
vecnonlinMesh->global refinements: 2
vecnonlin->dim: 1
vecnonlin->mesh: vecnonlinMesh
vecnonlin->polynomial degree[0]: 2
vecnonlin->polynomial degree[1]: 2
vecnonlin->components: 2
vecnonlin->nonlin solver: newton_fs % no, newton, newton_fs
vecnonlin->nonlin solver->tolerance: 1.e-6 % tolerance for Newton
vecnonlin->nonlin solver->max iteration: 50 % maximal number of iterations of Newton
vecnonlin->nonlin solver->info: 2 % information level of Newton
vecnonlin->nonlin solver->restart: 10 % number of iterations for step size control
vecnonlin->nonlin solver->norm: 1 % 1: H1_NORM, 2: L2_NORM
vecnonlin->solver: cg
vecnonlin->solver->max iteration: 1000
vecnonlin->solver->tolerance: 1.e-8
vecnonlin->solver->info: 1
vecnonlin->solver->left precon: diag
vecnonlin->solver->right precon: no
vecnonlin->estimator[0]: residual
vecnonlin->estimator[0]->error norm: 1 % 1: H1_NORM, 2: L2_NORM
vecnonlin->estimator[0]->C0: 0.1 % constant of element residual
vecnonlin->estimator[0]->C1: 0.1 % constant of jump residual
vecnonlin->estimator[1]: residual
vecnonlin->estimator[1]->error norm: 1 % 1: H1_NORM, 2: L2_NORM
vecnonlin->estimator[1]->C0: 0.1 % constant of element residual
vecnonlin->estimator[1]->C1: 0.1 % constant of jump residual
vecnonlin->marker[0]->strategy: 2 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
vecnonlin->marker[0]->MSGamma: 0.9
vecnonlin->marker[1]->strategy: 2 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
vecnonlin->marker[1]->MSGamma: 0.9
vecnonlin->adapt->max iteration: 8
vecnonlin->adapt->info: 4
vecnonlin->adapt->refine bisections: 1
vecnonlin->adapt->coarsen bisections: 1
vecnonlin->adapt[0]->tolerance: 1.e-8
vecnonlin->adapt[1]->tolerance: 1.e-8
vecnonlin->output[0]->filename: vecnonlin
vecnonlin->output[0]->ParaView format: 1
vecnonlin->output[0]->TecPlot format: 0
vecnonlin->output[0]->TecPlot ext: .tec
vecnonlin->output[0]->AMDiS format: 0
vecnonlin->output[0]->AMDiS mesh ext: .mesh
vecnonlin->output[0]->AMDiS data ext: .dat
vecnonlin->output[0]->append index: 0
vecnonlin->output[0]->index length: 6
vecnonlin->output[0]->index decimals: 3
vecnonlin->output[1]->filename: vecnonlin
vecnonlin->output[1]->ParaView format: 1
vecnonlin->output[1]->TecPlot format: 0
vecnonlin->output[1]->TecPlot ext: .tec
vecnonlin->output[1]->AMDiS format: 0
vecnonlin->output[1]->AMDiS mesh ext: .mesh
vecnonlin->output[1]->AMDiS data ext: .dat
vecnonlin->output[1]->append index: 0
vecnonlin->output[1]->index length: 6
vecnonlin->output[1]->index decimals: 3
dimension of world: 2
vecnonlinMesh->macro file name: ./macro/macro.stand.2d
vecnonlinMesh->global refinements: 2
vecnonlin->dim: 2
vecnonlin->mesh: vecnonlinMesh
vecnonlin->polynomial degree[0]: 2
vecnonlin->polynomial degree[1]: 2
vecnonlin->components: 2
vecnonlin->nonlin solver: newton_fs % no, newton, newton_fs
vecnonlin->nonlin solver->tolerance: 1.e-6 % tolerance for Newton
vecnonlin->nonlin solver->max iteration: 50 % maximal number of iterations of Newton
vecnonlin->nonlin solver->info: 2 % information level of Newton
vecnonlin->nonlin solver->restart: 10 % number of iterations for step size control
vecnonlin->nonlin solver->norm: 1 % 1: H1_NORM, 2: L2_NORM
vecnonlin->solver: cg
vecnonlin->solver->max iteration: 1000
vecnonlin->solver->tolerance: 1.e-8
vecnonlin->solver->info: 1
vecnonlin->solver->left precon: diag
vecnonlin->solver->right precon: no
vecnonlin->estimator[0]: residual
vecnonlin->estimator[0]->error norm: 1 % 1: H1_NORM, 2: L2_NORM
vecnonlin->estimator[0]->C0: 0.1 % constant of element residual
vecnonlin->estimator[0]->C1: 0.1 % constant of jump residual
vecnonlin->estimator[1]: residual
vecnonlin->estimator[1]->error norm: 1 % 1: H1_NORM, 2: L2_NORM
vecnonlin->estimator[1]->C0: 0.1 % constant of element residual
vecnonlin->estimator[1]->C1: 0.1 % constant of jump residual
vecnonlin->marker[0]->strategy: 2 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
vecnonlin->marker[0]->MSGamma: 0.9
vecnonlin->marker[1]->strategy: 2 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
vecnonlin->marker[1]->MSGamma: 0.9
vecnonlin->adapt->max iteration: 8
vecnonlin->adapt->info: 4
vecnonlin->adapt->refine bisections: 2
vecnonlin->adapt->coarsen bisections: 2
vecnonlin->adapt[0]->tolerance: 1.e-8
vecnonlin->adapt[1]->tolerance: 1.e-8
vecnonlin->output[0]->filename: vecnonlin
vecnonlin->output[0]->ParaView format: 1
vecnonlin->output[0]->TecPlot format: 0
vecnonlin->output[0]->TecPlot ext: .tec
vecnonlin->output[0]->AMDiS format: 0
vecnonlin->output[0]->AMDiS mesh ext: .mesh
vecnonlin->output[0]->AMDiS data ext: .dat
vecnonlin->output[0]->append index: 0
vecnonlin->output[0]->index length: 6
vecnonlin->output[0]->index decimals: 3
vecnonlin->output[1]->filename: vecnonlin
vecnonlin->output[1]->ParaView format: 1
vecnonlin->output[1]->TecPlot format: 0
vecnonlin->output[1]->TecPlot ext: .tec
vecnonlin->output[1]->AMDiS format: 0
vecnonlin->output[1]->AMDiS mesh ext: .mesh
vecnonlin->output[1]->AMDiS data ext: .dat
vecnonlin->output[1]->append index: 0
vecnonlin->output[1]->index length: 6
vecnonlin->output[1]->index decimals: 3
dimension of world: 3
vecnonlinMesh->macro file name: ./macro/macro.stand.3d
vecnonlinMesh->global refinements: 0
vecnonlin->dim: 3
vecnonlin->mesh: vecnonlinMesh
vecnonlin->polynomial degree[0]: 2
vecnonlin->polynomial degree[1]: 2
vecnonlin->components: 2
vecnonlin->nonlin solver: newton_fs % no, newton, newton_fs
vecnonlin->nonlin solver->tolerance: 1.e-6 % tolerance for Newton
vecnonlin->nonlin solver->max iteration: 50 % maximal number of iterations of Newton
vecnonlin->nonlin solver->info: 2 % information level of Newton
vecnonlin->nonlin solver->restart: 10 % number of iterations for step size control
vecnonlin->nonlin solver->norm: 1 % 1: H1_NORM, 2: L2_NORM
vecnonlin->solver: cg
vecnonlin->solver->max iteration: 1000
vecnonlin->solver->tolerance: 1.e-8
vecnonlin->solver->info: 1
vecnonlin->solver->left precon: diag
vecnonlin->solver->right precon: no
vecnonlin->estimator[0]: residual
vecnonlin->estimator[0]->error norm: 1 % 1: H1_NORM, 2: L2_NORM
vecnonlin->estimator[0]->C0: 0.1 % constant of element residual
vecnonlin->estimator[0]->C1: 0.1 % constant of jump residual
vecnonlin->estimator[1]: residual
vecnonlin->estimator[1]->error norm: 1 % 1: H1_NORM, 2: L2_NORM
vecnonlin->estimator[1]->C0: 0.1 % constant of element residual
vecnonlin->estimator[1]->C1: 0.1 % constant of jump residual
vecnonlin->marker[0]->strategy: 2 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
vecnonlin->marker[0]->MSGamma: 0.9
vecnonlin->marker[1]->strategy: 2 % 0: no adaption 1: GR 2: MS 3: ES 4:GERS
vecnonlin->marker[1]->MSGamma: 0.9
vecnonlin->adapt->max iteration: 8
vecnonlin->adapt->info: 4
vecnonlin->adapt->refine bisections: 3
vecnonlin->adapt->coarsen bisections: 3
vecnonlin->adapt[0]->tolerance: 1.e-8
vecnonlin->adapt[1]->tolerance: 1.e-8
vecnonlin->output[0]->filename: vecnonlin
vecnonlin->output[0]->ParaView format: 1
vecnonlin->output[0]->TecPlot format: 0
vecnonlin->output[0]->TecPlot ext: .tec
vecnonlin->output[0]->AMDiS format: 0
vecnonlin->output[0]->AMDiS mesh ext: .mesh
vecnonlin->output[0]->AMDiS data ext: .dat
vecnonlin->output[0]->append index: 0
vecnonlin->output[0]->index length: 6
vecnonlin->output[0]->index decimals: 3
vecnonlin->output[1]->filename: vecnonlin
vecnonlin->output[1]->ParaView format: 1
vecnonlin->output[1]->TecPlot format: 0
vecnonlin->output[1]->TecPlot ext: .tec
vecnonlin->output[1]->AMDiS format: 0
vecnonlin->output[1]->AMDiS mesh ext: .mesh
vecnonlin->output[1]->AMDiS data ext: .dat
vecnonlin->output[1]->append index: 0
vecnonlin->output[1]->index length: 6
vecnonlin->output[1]->index decimals: 3
DIM: 2
DIM_OF_WORLD: 2
number of elements: 8
number of vertices: 9
element vertices:
1 3 0
3 1 4
2 4 1
4 2 5
4 6 3
6 4 7
5 7 4
7 5 8
element boundaries:
1 1 0
0 0 0
0 1 0
1 0 0
1 0 0
0 1 0
0 0 0
1 1 0
vertex coordinates:
0.0 0.0
0.5 0.0
1.0 0.0
0.0 0.5
0.5 0.5
1.0 0.5
0.0 1.0
0.5 1.0
1.0 1.0
element neighbours:
-1 -1 1
2 4 0
1 -1 3
-1 6 2
-1 1 5
6 -1 4
5 3 7
-1 -1 6
element region:
1
1
1
1