diff --git a/test/tests/ver-1b/tests b/test/tests/ver-1b/tests index 42925fcd..b3941dfe 100644 --- a/test/tests/ver-1b/tests +++ b/test/tests/ver-1b/tests @@ -1,6 +1,7 @@ [Tests] design = 'Diffusion.md TimeDerivative.md DirichletBC.md' issues = '#12' + verification = 'ver-1b.md' [ver-1b] type = Exodiff input = ver-1b.i diff --git a/test/tests/ver-1c/tests b/test/tests/ver-1c/tests index 447cfb2a..e343ff75 100644 --- a/test/tests/ver-1c/tests +++ b/test/tests/ver-1c/tests @@ -1,6 +1,7 @@ [Tests] design = 'Diffusion.md TimeDerivative.md' issues = '#12' + verification = 'ver-1c.md' [ver-1c] type = Exodiff input = 'ver-1c.i' diff --git a/test/tests/ver-1d/tests b/test/tests/ver-1d/tests index 8e7c529a..d1b66f30 100644 --- a/test/tests/ver-1d/tests +++ b/test/tests/ver-1d/tests @@ -1,13 +1,13 @@ [Tests] design = 'TrappingNodalKernel.md ReleasingNodalKernel.md' issues = '#12' + verification = 'ver-1d.md' [ver-1d_diffusion_limited] type = Exodiff input = ver-1d-diffusion.i exodiff = ver-1d_diffusion_limited_test_exodus.e cli_args = "Mesh/nx=20 Executioner/num_steps=300 Outputs/file_base=ver-1d_diffusion_limited_test_exodus" requirement = 'The system shall be able to model a breakthrough problem where diffusion is the rate limiting process.' - verification = 'ver-1d.md' [] [ver-1d_diffusion_limited_heavy] type = Exodiff @@ -15,7 +15,6 @@ input = ver-1d-diffusion.i exodiff = ver-1d-diffusion_out.e requirement = 'The system shall be able to model a breakthrough problem where diffusion is the rate limiting process, with the fine mesh and time step required to match the analytical solution for the verification case.' - verification = 'ver-1d.md' [] [ver-1d_diffusion_limited_heavy_csvdiff] type = CSVDiff @@ -26,7 +25,6 @@ prereq = ver-1d_diffusion_limited_heavy requirement = 'The system shall be able to model a breakthrough problem where diffusion is the rate limiting process, with the fine mesh and time step required to match the analytical solution for the verification case and generate CSV data for use in comparisons with the analytic solution.' - verification = 'ver-1d.md' [] [ver-1d_trapping_limited] type = Exodiff @@ -34,7 +32,6 @@ exodiff = ver-1d_trapping_limited_test_exodus.e requirement = 'The system shall be able to model a breakthrough problem where trapping is the rate limiting process.' cli_args = "Mesh/nx=20 Executioner/num_steps=300 Outputs/file_base=ver-1d_trapping_limited_test_exodus" - verification = 'ver-1d.md' [] [ver-1d_trapping_limited_heavy] type = Exodiff @@ -42,7 +39,6 @@ input = ver-1d-trapping.i exodiff = ver-1d-trapping_out.e requirement = 'The system shall be able to model a breakthrough problem where trapping is the rate limiting process with the fine mesh and time step required to match the analytical solution for the verification case.' - verification = 'ver-1d.md' [] [ver-1d_trapping_limited_heavy_csvdiff] type = CSVDiff @@ -52,7 +48,6 @@ csvdiff = ver-1d-trapping_out.csv prereq = ver-1d_trapping_limited_heavy requirement = 'The system shall be able to model a breakthrough problem where trapping is the rate limiting process with the fine mesh and time step required to match the analytical solution for the verification case and generate CSV data for use in comparisons with the analytic solution.' - verification = 'ver-1d.md' [] [ver-1d_comparison] type = RunCommand diff --git a/test/tests/ver-1e/tests b/test/tests/ver-1e/tests index 7d53bb5f..36071a0d 100644 --- a/test/tests/ver-1e/tests +++ b/test/tests/ver-1e/tests @@ -1,6 +1,7 @@ [Tests] design = 'Diffusion.md TimeDerivative.md DirichletBC.md' issues = '#12' + verification = 'ver-1e.md' [ver-1e] type = Exodiff input = ver-1e.i diff --git a/test/tests/ver-1fa/tests b/test/tests/ver-1fa/tests index b6a4cce1..baeb7dbf 100644 --- a/test/tests/ver-1fa/tests +++ b/test/tests/ver-1fa/tests @@ -1,12 +1,12 @@ [Tests] design = 'HeatConduction.md HeatConductionTimeDerivative.md HeatSource.md' issues = '#12' + verification = 'ver-1fa.md' [ver-1fa] type = Exodiff input = ver-1fa.i exodiff = ver-1fa_out.e requirement = 'The system shall be able to model heat conduction in a slab that has heat generation' - verification = 'ver-1fa.md' [] [ver-1fa_lineplot] type = CSVDiff diff --git a/test/tests/ver-1fb/tests b/test/tests/ver-1fb/tests index eaf8c04e..b5cd0362 100644 --- a/test/tests/ver-1fb/tests +++ b/test/tests/ver-1fb/tests @@ -1,11 +1,11 @@ [Tests] design = 'HeatConduction.md HeatConductionTimeDerivative.md' issues = '#12' + verification = 'ver-1fb.md' [thermal_transient] type = Exodiff input = ver-1fb.i exodiff = ver-1fb_out.e requirement = 'The system shall be able to model thermal transient in a slab that has temperatures fixed at both the ends' - verification = 'ver-1fb.md' [] [] diff --git a/test/tests/ver-1g/tests b/test/tests/ver-1g/tests index f1098ebc..9eae5938 100644 --- a/test/tests/ver-1g/tests +++ b/test/tests/ver-1g/tests @@ -1,26 +1,24 @@ [Tests] design = 'ADMatReactionFlexible.md' issues = '#12' + verification = 'ver-1g.md' [binary_reaction_equal_concentrations] type = Exodiff input = 'ver-1g.i equal_conc.i' exodiff = equal_conc_out.e requirement = 'The system shall be able to model a chemical reaction between two species with the same concentrations and calculate the concentrations of reactants and product as a function of time' - verification = 'ver-1g.md' [] [binary_reaction_diff_concentrations_TMAP4] type = Exodiff input = 'ver-1g.i diff_conc_TMAP4.i' exodiff = diff_conc_TMAP4_out.e requirement = 'The system shall be able to model a chemical reaction between two species with different concentrations and calculate the concentrations of reactants and product as a function of time using the initial conditions from the TMAP4 case' - verification = 'ver-1g.md' [] [binary_reaction_diff_concentrations_TMAP7] type = Exodiff input = 'ver-1g.i diff_conc_TMAP7.i' exodiff = diff_conc_TMAP7_out.e requirement = 'The system shall be able to model a chemical reaction between two species with different concentrations and calculate the concentrations of reactants and product as a function of time using the initial conditions from the TMAP7 case' - verification = 'ver-1g.md' [] [binary_reaction_equal_concentrations_csv_diff] type = CSVDiff diff --git a/test/tests/ver-1gc/tests b/test/tests/ver-1gc/tests index 8178a08c..f9f59468 100644 --- a/test/tests/ver-1gc/tests +++ b/test/tests/ver-1gc/tests @@ -1,12 +1,12 @@ [Tests] design = 'ADMatReactionFlexible.md' issues = '#12 #104' + verification = 'ver-1gc.md' [ver-1gc] type = Exodiff input = 'ver-1gc.i' exodiff = ver-1gc_out.e requirement = 'The system shall be able to model a series of chemical reactions involving three species and calculate the concentrations of each species as a function of time.' - verification = 'ver-1gc.md' [] [ver-1gc_csv] type = CSVDiff @@ -14,7 +14,6 @@ should_execute = False # this test relies on the output files from ver-1gc, so it shouldn't be run twice csvdiff = ver-1gc_out.csv requirement = 'The system shall be able to model a series of chemical reactions involving three species and calculate the concentrations of each species as a function of time and to generate CSV data for use in comparisons with the analytic solution over time.' - verification = 'ver-1gc.md' prereq = ver-1gc [] [ver-1gc_comparison] diff --git a/test/tests/ver-1ha/tests b/test/tests/ver-1ha/tests index 70deabde..ec18a6f4 100644 --- a/test/tests/ver-1ha/tests +++ b/test/tests/ver-1ha/tests @@ -1,12 +1,12 @@ [Tests] design = 'ADMatReaction.md' issues = '#148' + verification = 'ver-1ha.md' [ver-1ha_csv] type = CSVDiff input = 'ver-1ha.i' csvdiff = ver-1ha_out.csv requirement = 'The system shall be able to model a convective outflow problem and calculate the pressure and concentration of the gas in the second and third enclosure and to generate CSV data for use in comparisons with the analytic solution over time.' - verification = 'ver-1ha.md' [] [ver-1ha_comparison] type = RunCommand