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Dune-Fufem 2.11-git
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P. Bastian, M. Blatt, A. Dedner, C. Engwer, R. Klöfkorn, R. Kornhuber, M. Ohlberger, and O. Sander. A generic interface for adaptive and parallel scientific computing. Part II: Implementation and tests in DUNE. Computing, 82(2–3):121–138, 2008.
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P. Bastian, M. Blatt, A. Dedner, C. Engwer, R. Klöfkorn, M. Ohlberger, and O. Sander. A generic interface for adaptive and parallel scientific computing. Part I: Abstract framework. Computing, 82(2–3):103–119, 2008.
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P. Bastian, M. Blatt, A. Dedner, N.-A. Dreier, C. Engwer, R. Fritze, C. Gräser, C. Grüninger, D. Kempf, R. Klöfkorn, M. Ohlberger, and O. Sander. The DUNE framework: Basic concepts and recent developments. Comput. Math. Appl., 81:75–112, 2021.
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M. Blatt, S. Burbulla, A. Burchardt, A. Dedner, C. Engwer, C. Gräser, C. Grüninger, R. Klöfkorn, T. Koch, S. Ospina De Los Ríos, S. Praetorius, and O. Sander. The Distributed and Unified Numerics Environment (DUNE), version 2.10, 2025. arxiv:2506.23558.
- [5]
The dune-fufem module. https://gitlab.dune-project.org/fufem/dune-fufem. v.2.11.
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C. M. Elliott and T. Ranner. Finite element analysis for a coupled bulk–surface partial differential equation. IMA J. Numer. Anal., 33(2):377–402, 2013.
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C. Engwer, C. Gräser, S. Müthing, and O. Sander. The interface for functions in the dune-functions module. Archive of Numerical Software, 5(1):95–109, 2017.
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C. Engwer, C. Gräser, S. Müthing, S. Praetorius, and O. Sander. Concepts for composing finite element function space bases, 2025. arxiv:2508.10125.
- [9]
C. Gräser. A note on Poincaré- and Friedrichs-type inequalities, 2015. arxiv:1512.02842v2.
