Difference between revisions of "OpenFOAM"
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On flow cluster, we have differents versions of precompiled OpenFOAM, they are available as a [http://wiki.hpcuser.uni-oldenburg.de/index.php/User_environment_-_The_usage_of_module module] : | On flow cluster, we have differents versions of precompiled OpenFOAM, they are available as a [http://wiki.hpcuser.uni-oldenburg.de/index.php/User_environment_-_The_usage_of_module module] : | ||
<pre>$ module av > grep openfoam | <pre>$ module av > grep openfoam | ||
</pre> | </pre> | ||
corrently we have : | corrently we have : | ||
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In Order to use OpenFOAM, load the openfoam module <span class="st">accordingly, exanple | In Order to use OpenFOAM, load the openfoam module <span class="st">accordingly, exanple | ||
</span> | </span> | ||
<pre | <pre>$ module load openfoam/1.6-ext</pre> | ||
== Serial jobs<br> == | == Serial jobs<br> == | ||
Revision as of 17:27, 30 January 2013
Policy
OpenFOAM is produced by OpenCFD Ltd, is freely available and open source, licensed under the GNU General Public Licence.
Description
The OpenFOAM® (Open Field Operation and Manipulation) CFD Toolbox is a free, open source CFD for both commercial and academic organisations. OpenFOAM has an extensive range of features to solve complex fluid flows problems involving chemical reactions, turbulence and heat transfer, to solid dynamics and electromagnetics. It includes tools for meshing, notably snappyHexMesh, a parallelised mesher for complex CAD geometries, and for pre- and post-processing. Almost everything (including meshing, and pre- and post-processing) runs in parallel as standard, enabling users to take full advantage of computer hardware at their disposal.
By being open, OpenFOAM offers users complete freedom to customise and extend its existing functionality. OpenFOAM includes over 80 solver applications that simulate specific problems in engineering mechanics and over 170 utility applications that perform pre- and post-processing tasks, e.g. meshing, data visualisation, etc.
Solver Capabilities
- Incompressible flows
- Multiphase flows Combustion
- Buoyancy-driven flows
- Conjugate heat transfer
- Compressible flows
- Particle methods (DEM, DSMC, MD)
- Other (Solid dynamics, electromagnetics)
Parallel Computing
OpenFOAM employs domain decomposition, with its decomposePar utility, to split the mesh and fields into a number of sub-domains and allocate them to separate processors. Applications can then run in parallel on separate sub-domains, with communication between processors with software that uses the MPI communications protocol. While OpenFOAM is shipped with the OpenMPI library, any MPI library, such as those optimised for particular hardware platforms, can be used with OpenFOAM by “plugging” it in through the Pstream interface.
Availability
On flow cluster, we have differents versions of precompiled OpenFOAM, they are available as a module :
$ module av > grep openfoam
corrently we have :
- openfoam/1.6-ext
- openfoam/1.7.1
- openfoam/2.0.1
- openfoam/2.1.0
- openfoam/2.1.1
Usage at flow cluster
In Order to use OpenFOAM, load the openfoam module accordingly, exanple
$ module load openfoam/1.6-ext
Serial jobs
Parallel jobs
Notes for OF-Devlopers
Useful links<span style="margin-right:0" id="taw" />