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Title:

Solving Hyperbolic PDE Systems with ExaHyPE

Document type:
Konferenzbeitrag
Contribution type:
Poster
Author(s):
Michael Bader; Jean-Matthieu Gallard; Leonhard Rannabauer; Anne Reinarz; Michael Dumbser; Alice-Agnes Gabriel; Tobias Weinzierl
Abstract:
We present latest features and results for ExaHyPE, an engine to solve hyperbolic PDE systems. ExaHyPE employs high-order discontinuous Galerkin with ADER time stepping and a-posteriori Finite-Volume limiting. It builds on the Peano framework, which features tree-structured Cartesian meshes and shared- and distributed-memory parallelism using MPI and Intel TBB. ExaHyPE provides role-oriented code generation utilities that offer tailored views for application, algorithm and optimisation expert...     »
Horizon 2020:
No 823844 (project ChEESE) and No 671698 (ExaHyPE)
Book / Congress title:
2020 SIAM Conference on Parallel Processing for Scientific Computing
Organization:
SIAM
Date of publication:
13.02.2020
Year:
2020
Language:
en
TUM Institution:
Department of Informatics
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