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arxiv: 2205.07824 · v1 · pith:WDQJXDEP · submitted 2022-05-16 · cs.MS · cs.CE· cs.NA· math.NA· physics.comp-ph· physics.flu-dyn

Exasim: Generating Discontinuous Galerkin Codes for Numerical Solutions of Partial Differential Equations on Graphics Processors

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classification cs.MS cs.CEcs.NAmath.NAphysics.comp-phphysics.flu-dyn
keywords codesdiscontinuousexasimgalerkindifferentialequationsgeneratingmodels
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This paper presents an overview of the functionalities and applications of Exasim, an open-source code for generating high-order discontinuous Galerkin codes to numerically solve parametrized partial differential equations (PDEs). The software combines high-level and low-level languages to construct parametrized PDE models via Julia, Python or Matlab scripts and produce high-performance C++ codes for solving the PDE models on CPU and Nvidia GPU processors with distributed memory. Exasim provides matrix-free discontinuous Galerkin discretization schemes together with scalable reduced basis preconditioners and Newton-GMRES solvers, making it suitable for accurate and efficient approximation of wide-ranging classes of PDEs.

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