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Document type:
Zeitschriftenaufsatz 
Author(s):
Reinarz, Anne; Charrier, Dominic; Bader, Michael; Bovard, Luke; Dumbser, Michael; Duru, Kenneth; Fambri, Francesco; Gabriel, Alice-Agnes; Gallard, Jean-Matthieu; Koeppel, Sven Köppel; Krenz, Lukas; Rannabauer, Leonhard; Rezzolla, Luciano; Samfass, Philipp; Tavelli, Maurizio; Weinzierl, Tobias 
Title:
ExaHyPE: An Engine for Parallel Dynamically Adaptive Simulations of Wave Problems 
Abstract:
ExaHyPE (“An Exascale Hyperbolic PDE Engine”) is a software engine for solving systems of first-order hyperbolic partial differential equations (PDEs). Hyperbolic PDEs are typically de- rived from the conservation laws of physics and are useful in a wide range of application areas. Applications powered by ExaHyPE can be run on a student’s laptop, but are also able to exploit the thousands of processor cores of state-of-the-art supercomputers. The engine is able to dy- namically adapt the ac...    »
 
Horizon 2020:
supported by Horizon 2020 project nr. 671698 ExaHyPE 
Journal title:
Computer Physics Communications 
Year:
2020 
Year / month:
2020-03 
Quarter:
3. Quartal 
Month:
Sep 
Journal issue:
254 
Pages contribution:
107251 
Language:
en 
Status:
Verlagsversion / published 
TUM Institution:
Department of Informatics