| ... | ... | @@ -20,11 +20,11 @@ Key reasons for using the lid-driven cavity (referred to as "cavity" in the foll |
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* The test case chosen is the 3-D version of the [Lid-driven cavity flow tutorial](https://www.openfoam.com/documentation/tutorial-guide/tutorialse2.php).
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* The cavity is one of the most basic and popular cases in OpenFOAM and for the validation in CFD codes
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* This test case has simple geometry and boundary conditions, involving transient, isothermal, incompressible laminar flow in a three-dimensional box domain. The _icoFoam_ solver is used in such test-case.
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* This test case has simple geometry and boundary conditions, involving transient, isothermal, incompressible laminar flow in a three-dimensional box domain. The _icoFoam_ solver is used in such test-case.
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* It is intended to stress test the linear algebra solver, most of the time being spent in the pressure equation.
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* Results for scaling are available because the present setup is based on the white paper: “PETSc4FOAM : A Library to plug-in PETSc into the OpenFOAM Framework”, Simone Bnà, Ivan Spisso, Mark Olesen, Giacomo Rossi
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The following [page](https://develop.openfoam.com/committees/hpc/-/wikis/3-D-Lid-Driven-cavity-flow) describes the 3-D version of the Lid-driven cavity flow tutorial
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The following [page](https://develop.openfoam.com/committees/hpc/-/wikis/3-D-Lid-Driven-cavity-flow) describes the 3-D version of the Lid-driven cavity benchmark and the modified micro-benchmark version (credit to <span dir="">Sergey Lesnik</span> @Serge)
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## HPC motorbike
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