Multirate time stepping for accelerating explicit discontinuous Galerkin computations with application to geophysical flows

Seny, B.; Lambrechts, J.; Comblen, R.; Legat, V.; Remacle, J.-F.

doi:/10.1002/fld.3646

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Multirate time stepping for accelerating explicit discontinuous Galerkin computations with application to geophysical flows

Seny, B.; Lambrechts, J.; Comblen, R.; Legat, V.; Remacle, J.-F. (2013). Multirate time stepping for accelerating explicit discontinuous Galerkin computations with application to geophysical flows. Int. J. Numer. Methods Fluids 71(1): 41-64. https://dx.doi.org/10.1002/fld.3646

In: International Journal for Numerical Methods in Fluids. Wiley Interscience: Chichester; New York. ISSN 0271-2091; e-ISSN 1097-0363, meer

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Trefwoord

Marien/Kust

Author keywords

discontinuous Galerkin; high performance computing; multirate timestepping; explicit Runge-Kutta; shallow water equations; Great BarrierReef

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Seny, B., meer Lambrechts, J., meer Comblen, R., meer	Legat, V., meer Remacle, J.-F., meer

Abstract

This paper presents multirate explicit time-stepping schemes for solving partial differential equations with discontinuous Galerkin elements in the framework of Large-scale marine flows. It addresses the variability of the local stable time steps by gathering the mesh elements in appropriate groups. The real challenge is to develop methods exhibiting mass conservation and consistency. Two multirate approaches, based on standard explicit RungeKutta methods, are analyzed. They are well suited and optimized for the discontinuous Galerkin framework. The significant speedups observed for the hydrodynamic application of the Great Barrier Reef confirm the theoretical expectations.

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