Publications & citations

Publications

Tetrahedral remeshing in the context of large-scale numerical simulation and high performance computing - G. Balarac, F. Basile, P. Bénard, F. Bordeu, J.-B. Chapelier, L. Cirrottola, G. Caumon, C. Dapogny, P. Frey, A. Froehly, G. Ghigliotti, R. Laraufie, G. Lartigue, C. Legentil, R. Mercier, V. Moureau, C. Nardoni, S. Pertant and M. Zakari, (2021)

Three-dimensional adaptive domain remeshing, implicit domain meshing, and applications to free and moving boundary problems - C. Dapogny, C. Dobrzynski and P. Frey - April 1, 2014 - JCP

Anisotropic Delaunay mesh adaptation for unsteady simulations C.Dobrzynski, P.Frey, Proceedings of the 17th international Meshing Roundtable (2008).

Citations

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Body-fitted topology optimization via integer linear programming using surface capturing techniques

Link to citations on Google Scholar.

Projects

Below is a list of projects using mmg. Do not hesitate to contact us if you wish to be referenced.

  • Aerosol

  • AVBP : a solver for numerical simulation of unsteady turbulence for reacting flows.

  • BakeMyScan: an open-source toolbox for asset optimization to call mmgs inside Blender.

  • Elmer/Ice: a finite element software for ice sheet, glaciers and ice flow modelling (open source).

  • Feel++

  • Freefem++: an open-source partial differential equation solver for non-linear multi-physics systems in 2D and 3D.

  • Gmsh

  • Gypsilab: an open source MATLAB toolbox for fast numerical computation with finite element and boundary element methods.

  • Kratos: an open-source framework for building parallel, multi-disciplinary simulation software.

  • MICROCARD

  • MUSICardio: a multimodal platform for cardiac imagery.

  • PETSc

  • PyMesh: Geometry Processing Library for Python

  • YALES2: a solver for two-phase combustion, from primary atomization to pollutant prediction, on massive complex meshes.

Acknowledgements

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The mmg3d software was supported by the MICROCARD-2 project (project ID 101172576). The project is supported by the EuroHPC Joint Undertaking and its members (including top-up funding by ANR, BMBF, and Ministero dello sviluppo economico). Funded by the European Union. Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union or EuroHPC. Neither the European Union nor EuroHPC can be held responsible for them.

Improvements in the mmg3d and ParMmg codes, culminating in versions 5.8.0 and 1.5.0, respectively, were funded by the MICROCARD project. This project has received funding from the European High-Performance Computing Joint Undertaking EuroHPC (JU) under grant agreement No 955495. The JU receives support from the European Union’s Horizon 2020 research and innovation programme and France, Italy, Germany, Austria, Norway, and Switzerland.