DUNE-ALUGrid

DUNE-ALUGrid is a Distributed and Unified Numerics Environment module which implements the DUNE grid interface providing unstructured simplicial and cube grids. A detailed description of all the new features and some more details concerning the inner workings of DUNE-ALUGrid can be found in the paper Alkämper, Dedner, Klöfkorn, Nolte. The DUNE-ALUGrid Module, Archive of Numerical Software 4(1), 2016.


References in zbMATH (referenced in 23 articles )

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  1. Chamakuri, Nagaiah; Kügler, Philipp: Parallel space-time adaptive numerical simulation of 3D cardiac electrophysiology (2022)
  2. Elliott, Charles M.; Herbert, Philip J.: A formula for membrane mediated point particle interactions on near spherical biomembranes (2022)
  3. von Wolff, Lars; Pop, Iuliu Sorin: Upscaling of a Cahn-Hilliard Navier-Stokes model with precipitation and dissolution in a thin strip (2022)
  4. Ahusborde, Etienne; Amaziane, Brahim; Moulay, Mohamed Id: High performance computing of 3D reactive multiphase flow in porous media: application to geological storage of (\mathrmCO_2) (2021)
  5. Bastian, Peter; Blatt, Markus; Dedner, Andreas; Dreier, Nils-Arne; Engwer, Christian; Fritze, René; Gräser, Carsten; Grüninger, Christoph; Kempf, Dominic; Klöfkorn, Robert; Ohlberger, Mario; Sander, Oliver: The \textscDuneframework: basic concepts and recent developments (2021)
  6. Holke, Johannes; Knapp, David; Burstedde, Carsten: An optimized, parallel computation of the ghost layer for adaptive hybrid forest meshes (2021)
  7. Rohde, Christian; von Wolff, Lars: A ternary Cahn-Hilliard-Navier-Stokes model for two-phase flow with precipitation and dissolution (2021)
  8. Beck, M.; Rinaldi, A. P.; Flemisch, B.; Class, H.: Accuracy of fully coupled and sequential approaches for modeling hydro- and geomechanical processes (2020)
  9. Elliott, Charles M.; Herbert, Philip J.: Second order splitting of a class of fourth order PDEs with point constraints (2020)
  10. Sander, Oliver: DUNE -- the distributed and unified numerics environment (2020)
  11. Chamakuri, Nagaiah: Parallel and space-time adaptivity for the numerical simulation of cardiac action potentials (2019)
  12. Dedner, Andreas; Kane, Birane; Klöfkorn, Robert; Nolte, Martin: Python framework for (hp)-adaptive discontinuous Galerkin methods for two-phase flow in porous media (2019)
  13. Peter Bastian, Markus Blatt, Andreas Dedner, Nils-Arne Dreier, Christian Engwer, René Fritze, Carsten Gräser, Christoph Grüninger, Dominic Kempf, Robert Klöfkorn, Mario Ohlberger, Oliver Sander: The DUNE Framework: Basic Concepts and Recent Developments (2019) arXiv
  14. Alkämper, Martin; Gaspoz, Fernando; Klöfkorn, Robert: A weak compatibility condition for newest vertex bisection in any dimension (2018)
  15. Chamakuri, Nagaiah; Neubert, Wilhelm; Gilbert, Stephen; Vierheller, Janine; Warnecke, Gerald; Falcke, Martin: Multiscale modeling and numerical simulation of calcium cycling in cardiac myocytes (2018)
  16. Nüßing, Andreas: Fitted and unfitted finite element methods for solving the EEG forward problem (2018)
  17. Schneider, Martin; Flemisch, B.; Helmig, R.; Terekhov, K.; Tchelepi, H.: Monotone nonlinear finite-volume method for challenging grids (2018)
  18. Semplice, Matteo; Loubère, Raphaël: Adaptive-mesh-refinement for hyperbolic systems of conservation laws based on a posteriori stabilized high order polynomial reconstructions (2018)
  19. Hagemann, B.; Rasoulzadeh, M.; Panfilov, M.; Ganzer, L.; Reitenbach, V.: Hydrogenization of underground storage of natural gas. Impact of hydrogen on the hydrodynamic and bio-chemical behavior (2016)
  20. Tobias Leibner, Rene Milk, Felix Schindler: Extending DUNE: The dune-xt modules (2016) arXiv

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