Verified Commit 9fbcb390 authored by Lars Bilke's avatar Lars Bilke

[web] Migrated GitLab links in benchmarks.

parent 4f8a4444
......@@ -48,7 +48,7 @@ $$
## Input files
The main project file is
[`square_1e2_volumetricsourceterm.prj`](https://github.com/ufz/ogs/blob/master/Tests/Data/Elliptic/square_1x1_SteadyStateDiffusion/square_1e2_volumetricsourceterm.prj). It describes the
[`square_1e2_volumetricsourceterm.prj`](https://gitlab.opengeosys.org/ogs/ogs/-/blob/master/Tests/Data/Elliptic/square_1x1_SteadyStateDiffusion/square_1e2_volumetricsourceterm.prj). It describes the
processes to be solved and the related process variables together with their
initial and boundary conditions. It also references the bulk mesh and the
boundary meshes associated with the bulk mesh.
......
......@@ -47,7 +47,7 @@ where $C_k = \frac{2k-1}{2} \pi$ and $A_k = 2 \Big/ \Big(C_k^2 \cosh\big(C_k\big
## Input files
The main project file is [square_1e2_neumann.prj](https://github.com/ufz/ogs-data/blob/master/Elliptic/square_1x1_SteadyStateDiffusion/square_1e2.prj). It describes the processes to be solved and the related process variables together with their initial and boundary conditions. It also references the mesh and geometrical objects defined on the mesh.
The main project file is [square_1e2_neumann.prj](https://gitlab.opengeosys.org/ogs/ogs/-/blob/master/Tests/Data/Elliptic/square_1x1_SteadyStateDiffusion/square_1e2.prj). It describes the processes to be solved and the related process variables together with their initial and boundary conditions. It also references the mesh and geometrical objects defined on the mesh.
As of now a small portion of possible inputs is implemented; one can change:
- the mesh file
......@@ -55,7 +55,7 @@ As of now a small portion of possible inputs is implemented; one can change:
- introduce more/different Dirichlet boundary conditions (different geometry or other constant values)
- introduce more/different Neumann boundary conditions (different geometry or other constant values)
The geometries used to specify the boundary conditions are given in the [square_1x1.gml](https://github.com/ufz/ogs-data/blob/master/Elliptic/square_1x1_SteadyStateDiffusion/square_1x1.gml) file.
The geometries used to specify the boundary conditions are given in the [square_1x1.gml](https://gitlab.opengeosys.org/ogs/ogs/-/blob/master/Tests/Data/Elliptic/square_1x1_SteadyStateDiffusion/square_1x1.gml) file.
The input mesh `square_1x1_quad_1e2.vtu` is stored in the VTK file format and can be directly visualized in Paraview for example.
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......@@ -44,7 +44,7 @@ $$
h(x) = g_D &\quad \text{for } x=1,
}$$
see
[`line_1e1_robin_left_picard.prj`](https://github.com/ufz/ogs/tree/master/Tests/Data/Elliptic/line_1_SteadyStateDiffusion/line_1e1_robin_left_picard.prj).
[`line_1e1_robin_left_picard.prj`](https://gitlab.opengeosys.org/ogs/ogs/-/tree/master/Tests/Data/Elliptic/line_1_SteadyStateDiffusion/line_1e1_robin_left_picard.prj).
### Analytical solution
......@@ -117,7 +117,7 @@ h(x) = g_D &\quad \text{for } x=0,\cr
{\partial h \over \partial n} = \alpha (h_0 - h(x)) &\quad \text{for } x=1,
}$$
see
[`line_1e1_robin_right_picard.prj`](https://github.com/ufz/ogs/tree/master/Tests/Data/Elliptic/line_1_SteadyStateDiffusion/line_1e1_robin_right_picard.prj).
[`line_1e1_robin_right_picard.prj`](https://gitlab.opengeosys.org/ogs/ogs/-/tree/master/Tests/Data/Elliptic/line_1_SteadyStateDiffusion/line_1e1_robin_right_picard.prj).
One particular solution is
$$
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......@@ -82,11 +82,11 @@ $$
## Input files
The project file is
[`square_1e3_poisson_sin_x_sin_y.prj`](https://github.com/ufz/ogs/tree/master/Tests/Data/Elliptic/square_1x1_SteadyStateDiffusion_Python/square_1e3_poisson_sin_x_sin_y.prj). It describes the
[`square_1e3_poisson_sin_x_sin_y.prj`](https://gitlab.opengeosys.org/ogs/ogs/-/tree/master/Tests/Data/Elliptic/square_1x1_SteadyStateDiffusion_Python/square_1e3_poisson_sin_x_sin_y.prj). It describes the
process to be solved and the related process variable together with their
initial, boundary conditions and source terms. The definition of the source term
$Q$ is in a [Python
script](https://github.com/ufz/ogs/tree/master/Tests/Data/Elliptic/square_1x1_SteadyStateDiffusion_Python/sin_x_sin_y_source_term.py).
script](https://gitlab.opengeosys.org/ogs/ogs/-/tree/master/Tests/Data/Elliptic/square_1x1_SteadyStateDiffusion_Python/sin_x_sin_y_source_term.py).
The script for setting the source terms is referenced in the project file as
follows:
```
......
......@@ -51,7 +51,7 @@ where $T_\textrm{b}$ is the boundary temperature, $\textrm{erfc}$ is the complem
## Input files
The main project file is [line_60_heat.prj](https://github.com/ufz/ogs-data/blob/master/Parabolic/T/1D_dirichlet/line_60_heat.prj). It describes the processes to be solved and the related process variables together with their initial and boundary conditions. It also references the mesh and geometrical objects defined on the mesh.
The main project file is [line_60_heat.prj](https://gitlab.opengeosys.org/ogs/ogs/-/blob/master/Tests/Data/Parabolic/T/1D_dirichlet/line_60_heat.prj). It describes the processes to be solved and the related process variables together with their initial and boundary conditions. It also references the mesh and geometrical objects defined on the mesh.
As of now a small portion of possible inputs is implemented; one can change:
- the mesh file
......
......@@ -92,9 +92,9 @@ src="../LineSourceTermFigures/comparison_plot_over_line_rel_diff_analytical_solu
#### Input files
The project files for the described models are
[49k.prj](https://github.com/ufz/ogs-data/blob/master/Parabolic/T/3D_line_source_term_tests/3D_line_source_term_in_cylinder/49k_prisms/line_source_term_in_cylinder.prj)
[49k.prj](https://gitlab.opengeosys.org/ogs/ogs/-/blob/master/Tests/Data/Parabolic/T/3D_line_source_term_tests/3D_line_source_term_in_cylinder/49k_prisms/line_source_term_in_cylinder.prj)
and
[286k.prj](https://github.com/ufz/ogs-data/blob/master/Parabolic/T/3D_line_source_term_tests/3D_line_source_term_in_cylinder/286k_prisms/line_source_term_in_cylinder.prj).
[286k.prj](https://gitlab.opengeosys.org/ogs/ogs/-/blob/master/Tests/Data/Parabolic/T/3D_line_source_term_tests/3D_line_source_term_in_cylinder/286k_prisms/line_source_term_in_cylinder.prj).
The project files describe the processes to be solved and the related process variables
together with their initial and boundary conditions as well as the source terms.
......@@ -123,4 +123,4 @@ src="../LineSourceTermFigures/plot_over_line_diff_and_rel_diff_analytical_soluti
#### Input files
The project file for the described model is
[line_source_term_in_cylinder.prj](https://github.com/ufz/ogs-data/blob/master/Parabolic/T/3D_line_source_term_tests/3D_line_source_term_in_cylinder_axisymmetric/line_source_term_in_cylinder.prj).
[line_source_term_in_cylinder.prj](https://gitlab.opengeosys.org/ogs/ogs/-/blob/master/Tests/Data/Parabolic/T/3D_line_source_term_tests/3D_line_source_term_in_cylinder_axisymmetric/line_source_term_in_cylinder.prj).
......@@ -37,8 +37,8 @@ The input data set of the element deactivation approach is specified inside the
The input syntax can be also found in the project files of the two benchmarks:
* [2D](https://github.com/ufz/ogs/tree/master/Tests/Data/Mechanics/Linear/square_with_deactivated_hole.prj)
* [3D](https://github.com/ufz/ogs/tree/master/Tests/Data/Mechanics/Linear/ElementDeactivation3D/element_deactivation_M_3D.prj)
* [2D](https://gitlab.opengeosys.org/ogs/ogs/-/tree/master/Tests/Data/Mechanics/Linear/square_with_deactivated_hole.prj)
* [3D](https://gitlab.opengeosys.org/ogs/ogs/-/tree/master/Tests/Data/Mechanics/Linear/ElementDeactivation3D/element_deactivation_M_3D.prj)
## Mesh
2D and 3D meshes:
......
https://github.com/ufz/ogs-data/blob/master/{{ .Get 0 }}
https://gitlab.opengeosys.org/ogs/ogs/-/blob/master/Tests/Data/{{ .Get 0 }}
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