Elmer FEM solver

Elmer is computational tool for multi-physics problems. It has been developed by CSC[2] in collaboration with Finnish universities, research laboratories and industry. Elmer FEM solver is free and open-source software, subject to the requirements of the GNU General Public License (GPL), version 2 or any later.[3]

Elmer FEM solver
One of the simpler examples provided with Elmer, a thermal model of a pump casing, as visualised using the ElmerPost tool
Stable release
8.4 / December 19, 2018 (2018-12-19)[1]
Repositorygithub.com/ElmerCSC/elmerfem
Written inFortran 90, C and C++
Operating systemLinux, Microsoft Windows, MacOS
Platformcommand line /GUI Qt v4/v5
TypeCAE
LicenseGNU General Public License
Websitewww.elmerfem.org

Elmer includes physical models of fluid dynamics, structural mechanics, electromagnetics, heat transfer and acoustics, for example.[3] These are described by partial differential equations which Elmer solves by the Finite Element Method (FEM).

Elmer comprises several different parts:[4]

  • ElmerGrid – A mesh conversion tool, which can be used to convert differing mesh formats into Elmer-suitable meshes.
  • ElmerGUI – A graphical interface which can be used on an existing mesh to assign physical models, this generates a "case file" which describes the problem to be solved. Does not show the whole ElmerSolver functionality in GUI.
  • ElmerSolver – The numerical solver which performs the finite element calculations, using the mesh and case files.
  • ElmerPost – A post-processing/visualisation module. (Development stopped in favour of other post-processing tools such as ParaView, VisIt, etc.)

The different parts of Elmer software may be used independently. Whilst the main module is the ElmerSolver tool, which includes many sophisticated features for physical model solving, the additional components are required to create a full workflow. For pre- and post-processing other tools, such as Paraview can be used to visualise the output.

The software runs on Unix and Windows platforms and can be compiled on a large variety of compilers, using the CMake building tool. The solver can also be used in a multi-host parallel mode on platforms that support MPI. Elmer's parallelisation capability is one of the strongest sides of this solver.

See also

References

  1. "Releases". github.com/ElmerCSC. Retrieved 23 December 2018.
  2. "Elmer – CSC". CSC — IT Center for Science Ltd. Retrieved 2019-09-04.
  3. Råback, Peter; Forsström, Pirjo-Leena; Lyly, Mikko; Gröhn, Matti (2007). "Elmer-finite element package for the solution of partial differential equations". EGEE User Forum.
  4. Råback, Peter; Malinen, Mika (2019). "Overview of Elmer" (PDF). CSC – IT Center for Science.
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