rAKA/examples/c++/scalability_testc5dcd9d8b6ccfeatures/meshutils_pyth…
rAKA/examples/c++/scalability_test
c5dcd9d8b6ccfeatures/meshutils_pyth…
scalability_test
scalability_test
README.rst
README.rst
Scalability test (3D)
`````````````````````
:Sources:
.. collapse:: cohesive_extrinsic.cc (click to expand)
.. literalinclude:: examples/c++/scalability_test/cohesive_extrinsic.cc
:language: c++
:lines: 20-
.. collapse:: material-elastic.dat (click to expand)
.. literalinclude:: examples/c++/scalability_test/material-elastic.dat
:language: text
:Location:
``examples/c++/`` `scalability_test <https://gitlab.com/akantu/akantu/-/blob/master/examples/c++/scalability_test>`_
This example is used to do scalability test, with elastic material or cohesive elements inserted on the fly.
The `cube.geo` should generate a mesh with roughly 4'500'000 elements and 730'000 nodes. The `cube.msh` file included is a `tiny` cube only to test if the code works.
To run the full simulation the full mesh has to be generated `gmsh -3 cube.geo -o cube.msh`
The simulation consist of a cube with a compressive force on top and a shear force on four sides as shown in the figure bellow
.. figure:: examples/c++/scalability_test/images/cube.svg
:align: center
:width: 60%
This examples was used to run the scalability test from the JOSS paper the
full mesh and results presented in the following graph can be found here:
`perf-test-akantu-cohesive
<https://gitlab.com/akantu/performance-testing-cohesive/-/tree/publications/joss?ref_type=tags>`_
.. figure:: examples/c++/scalability_test/images/TTS.svg
:align: center
:width: 60%
`````````````````````
:Sources:
.. collapse:: cohesive_extrinsic.cc (click to expand)
.. literalinclude:: examples/c++/scalability_test/cohesive_extrinsic.cc
:language: c++
:lines: 20-
.. collapse:: material-elastic.dat (click to expand)
.. literalinclude:: examples/c++/scalability_test/material-elastic.dat
:language: text
:Location:
``examples/c++/`` `scalability_test <https://gitlab.com/akantu/akantu/-/blob/master/examples/c++/scalability_test>`_
This example is used to do scalability test, with elastic material or cohesive elements inserted on the fly.
The `cube.geo` should generate a mesh with roughly 4'500'000 elements and 730'000 nodes. The `cube.msh` file included is a `tiny` cube only to test if the code works.
To run the full simulation the full mesh has to be generated `gmsh -3 cube.geo -o cube.msh`
The simulation consist of a cube with a compressive force on top and a shear force on four sides as shown in the figure bellow
.. figure:: examples/c++/scalability_test/images/cube.svg
:align: center
:width: 60%
This examples was used to run the scalability test from the JOSS paper the
full mesh and results presented in the following graph can be found here:
`perf-test-akantu-cohesive
<https://gitlab.com/akantu/performance-testing-cohesive/-/tree/publications/joss?ref_type=tags>`_
.. figure:: examples/c++/scalability_test/images/TTS.svg
:align: center
:width: 60%
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