The Deferred Correction (DeC) methods combined with the residual distribution (RD) approach allow the construction of high order continuous Galerkin (cG) schemes avoiding the inversion of the mass matrix. With the application of entropy correction functions we can even obtain entropy conservative/dissipative spatial discretizations in this context. To handle entropy production in time, a relaxation approach has been suggested by Ketcheson. The main idea is to slightly modify the time-step size such that the approximated solution fulfills the underlying entropy conservation/dissipation constraint. In this paper, we first study the relaxation technique applied to the DeC approach as an ODE solver, then we extend this combination to the residual distribution method, requiring more technical steps. The outcome is a class of cG methods that is fully entropy conservative/dissipative and where we can still avoid the inversion of a mass matrix.

Relaxation Deferred Correction Methods and their Applications to Residual Distribution Schemes / Abgrall, R.; Le Meledo, E.; Öffner, P.; Torlo, D.. - In: THE SMAI JOURNAL OF COMPUTATIONAL MATHEMATICS. - ISSN 2426-8399. - 8:(2022), pp. 125-160. [10.5802/smai-jcm.82]

Relaxation Deferred Correction Methods and their Applications to Residual Distribution Schemes

Torlo, D.
2022-01-01

Abstract

The Deferred Correction (DeC) methods combined with the residual distribution (RD) approach allow the construction of high order continuous Galerkin (cG) schemes avoiding the inversion of the mass matrix. With the application of entropy correction functions we can even obtain entropy conservative/dissipative spatial discretizations in this context. To handle entropy production in time, a relaxation approach has been suggested by Ketcheson. The main idea is to slightly modify the time-step size such that the approximated solution fulfills the underlying entropy conservation/dissipation constraint. In this paper, we first study the relaxation technique applied to the DeC approach as an ODE solver, then we extend this combination to the residual distribution method, requiring more technical steps. The outcome is a class of cG methods that is fully entropy conservative/dissipative and where we can still avoid the inversion of a mass matrix.
2022
8
125
160
10.5802/smai-jcm.82
https://arxiv.org/abs/2106.05005
Abgrall, R.; Le Meledo, E.; Öffner, P.; Torlo, D.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11767/131397
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