Metadata-Version: 2.1
Name: dune-fem-dg
Version: 2.10.dev20221108
Summary: The Dune FEM module: Discontinuous Galerkin for evolution equations
Home-page: https://www.dune-project.org/modules/dune-fem-dg/
Author: Andreas Dedner, Tobias Malkmus, Robert Kloefkorn, Stefan Wierling (geb. Girke)
Author-email: dune-fem@lists.dune-project.org
License: UNKNOWN
Description: DUNE-FEM-DG
        ===========
        
        DUNE-FEM-DG is the implementation of Discontinuous Galerkin schemes
        using the DUNE-FEM framework. Stabilized DG schemes for hyperbolic
        as well as a wide range of different primal formulations
        for elliptic/parabolic problems are implemented.
        The operators can be used efficiently both in a
        explicit/matrix free implementation or used to
        setup a system matrix for use with the linear solvers available in DUNE-FEM.
        
        
        License
        -------
        
        The DUNE-FEM-DG module is available under
        the GNU General Public License version 2, or (at your option),
        any later version.
        
        
        References
        ----------
        
        A detailed description of how to use the code can be found in the first paper,
        the description of the schemes can be found
        in the second and third papers and an overview on performance of
        the code is given in the forth paper.
        
        * A. Dedner, R. Klöfkorn.
        Extendible and Efficient Python Framework for Solving Evolution Equations
        with Stabilized Discontinuous Galerkin Method. Commun. Appl. Math. Comput., 2021. https://dx.doi.org/10.1007/s42967-021-00134-5.
        
        * S. Brdar, A. Dedner, and R. Klöfkorn.
        Compact and stable Discontinuous Galerkin methods for convection-diffusion problems.
        SIAM J. Sci. Comput., 34(1):263-282, 2012. https://dx.doi.org/10.1137/100817528
        
        * A. Dedner and R. Klöfkorn. A Generic Stabilization Approach for Higher Order Discontinuous Galerkin Methods for Convection Dominated Problems.
        J. Sci. Comput., 47(3):365-388, 2011. https://dx.doi.org/10.1007/s10915-010-9448-0
        
        An overview on performance of the code is given in
        
        * R. Klöfkorn. Efficient Matrix-Free Implementation of Discontinuous Galerkin Methods for Compressible Flow Problems.
        Proceedings of the ALGORITMY 2012. http://www.iam.fmph.uniba.sk/algoritmy2012/zbornik/2Kloefkornf.pdf
        
        By using the code you agree to cite one or both of the first two papers in any publication using this code.
        
        
        Eye-candy
        ---------
        
        The avatar of the project shows the solution of
        the compressible Euler equations in 3D using
        the parallel-adaptive DUNE-ALUGrid and the DG
        discretization implemented in DUNE-FEM-DG.
        
        
        Installation
        ------------
        
        **Using pip**
        
        dune-fem-dg can be installed using the Package Index of Python (pip).
        
        ```
        pip install dune-fem-dg
        ```
        
        See https://dune-project.org/doc/installation-pip/ for a more detailed
        description.
        
        **From source**
        
        dune-fem-dg also provides a [shell script](https://gitlab.dune-project.org/dune-fem/dune-fem-dg/-/blob/master/scripts/build-dune-fem-dg.sh)
        to install the sources using a specific git branch.
        Further detailed explanation on the DUNE installation process please read
        the installation notes https://www.dune-project.org/doc/installation/.
        
        Documentation
        -------------
        
        A documentation of the Python bindings of DUNE-FEM-DG can be found in
        
        * A. Dedner, R. Klöfkorn.
        Extendible and Efficient Python Framework for Solving Evolution Equations
        with Stabilized Discontinuous Galerkin Method. Commun. Appl. Math. Comput., 2021. https://dx.doi.org/10.1007/s42967-021-00134-5.
        
        A documentation for C++ code (and 2.4 release) can be found in
        
        * A. Dedner, S. Girke, R. Klöfkorn, T. Malkmus. The DUNE-FEM-DG module.
        Archive of Numerical Software 5(1): 21--61. 2017. https://dx.doi.org/10.11588/ans.2017.1.28602
        
        
        git-003fa66d9de869ad1b5ceb83e221faf37945d674
        
Platform: UNKNOWN
Classifier: Programming Language :: C++
Classifier: Programming Language :: Python :: 3
Classifier: License :: OSI Approved :: GNU General Public License (GPL)
Requires-Python: >=3.4
Description-Content-Type: text/markdown
