FLUXO is a numerical tool to solve linear and nonlinear advection diffusion equations, for example the compressible Navier-Stokes equations, the resistive magneto-hydrodynamic equations and others.
FLUXO is based on a novel Discontinuous Galerkin Spectral Element Method (DGSEM), which allows for high-order of accuracy and fully unstructured hexahedral meshes. The volume terms are formulated in a specific subcell flux based form, which allows the construction of entropy stable as well as kinetic energy preserving discretisations. The solver is parallelized very efficiently and scales up to hundreds of thousand cores.
The main contributers are
- from Mathematical Institute, University of Cologne: Gregor Gassner
- from Max Planck Institute for Plasma Physics, Garching: Florian Hindenlang
- from Department of Mathematics, Linköping University: Andrew Winters
FLUXO is a spin-off of the FLEXI code (https://github.com/flexi-framework/flexi) that is developed at the Institute for Aero- and Gasdynamics at University Stuttgart in the group of Claus-Dieter Munz.
If you use FLUXO, please cite one of the articles mentioned in REFERENCES.md
For installation instructions see INSTALL.md
FLUXO is released under the terms of the GNU General Public License v3.0. For the full license terms see the included license file LICENSE.md.
FLUXO uses several external libraries as well as auxilliary functions from open source projects, including:
Numerous people have worked and are working on the code and here is the full list of contributors: CONTRIBUTORS.md
We would like to thank all for their effort.
You find some help with git in doc/GITcheatsheet.md