forked from idaholab/moose
/
tests
36 lines (36 loc) · 1.4 KB
/
tests
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
[Tests]
issues = '#21885'
design = 'Optimize.md'
[nm]
type = CSVDiff
input = main.i
csvdiff = main_out_temperature_at_observation_points_0001.csv
heavy = true
rel_err = 0.3
cli_args = "Executioner/tao_solver=TAONM Executioner/petsc_options_iname='-tao_fmin' "
"Executioner/petsc_options_value='0.0001'"
requirement = "The system shall be able to use Nelder Mead to invert for material properties"
[]
[fd_grad]
type = CSVDiff
input = main.i
csvdiff = main_out_temperature_at_observation_points_0001.csv
heavy = true
rel_err = 0.1
cli_args = "Executioner/tao_solver=TAOBLMVM Executioner/petsc_options_iname='-tao_fd_gradient "
"-tao_gatol' Executioner/petsc_options_value='True 0.0005'"
requirement = "The system shall be able to use finite-differencing with a gradient method to "
"invert for material properties"
[]
[fd_hess]
type = CSVDiff
input = main.i
csvdiff = main_out_temperature_at_observation_points_0001.csv
heavy = true
rel_err = 1.0
cli_args = "Executioner/tao_solver=taobntr Executioner/petsc_options_iname='-tao_fd_gradient "
"-tao_fd_hessian -tao_gatol' Executioner/petsc_options_value='true True 0.1'"
requirement = "The system shall be able to use finite-differencing with a hessian method to "
"invert for material properties"
[]
[]