Optimized Explicit Runge--Kutta Schemes for the Spectral Difference Method Applied to Wave Propagation Problems

M Parsani; David Ketcheson; W Deconinck

doi:10.1137/120885899

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Optimized Explicit Runge--Kutta Schemes for the Spectral Difference Method Applied to Wave Propagation Problems

Journal article

Peer reviewed

Optimized Explicit Runge--Kutta Schemes for the Spectral Difference Method Applied to Wave Propagation Problems

M Parsani, David Ketcheson and W Deconinck

SIAM journal on scientific computing, Vol.35(2), pp.A.957-A986

01/01/2013

DOI: https://doi.org/10.1137/120885899

Abstract

Accuracy

Conservation laws

Methods

Optimization

Propagation

Explicit Runge--Kutta schemes with large stable step sizes are developed for integration of high-order spectral difference spatial discretizations on quadrilateral grids. The new schemes permit an effective time step that is substantially larger than the maximum admissible time step of standard explicit Runge--Kutta schemes available in the literature. Furthermore, they have a small principal error norm and admit a low-storage implementation. The advantages of the new schemes are demonstrated through application to the Euler equations and the linearized Euler equations. [PUBLICATION ABSTRACT]

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Title: Optimized Explicit Runge--Kutta Schemes for the Spectral Difference Method Applied to Wave Propagation Problems
Creators - without role: M Parsani
David Ketcheson
W Deconinck
Publication Details: SIAM journal on scientific computing, Vol.35(2), pp.A.957-A986
Publisher: Society for Industrial and Applied Mathematics
Identifiers: 9945043808331
Academic Unit: King Abdullah University of Science & Technology
Language: English
Resource Type: Journal article