Journal
JOURNAL OF SCIENTIFIC COMPUTING
Volume 61, Issue 2, Pages 327-342Publisher
SPRINGER/PLENUM PUBLISHERS
DOI: 10.1007/s10915-014-9826-0
Keywords
Partial differential equations; Wave propagation; Compact finite difference schemes; Stability analysis
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We study the numerical anisotropy existent in compact difference schemes as applied to hyperbolic partial differential equations, and propose an approach to reduce this error and to improve the stability restrictions based on a previous analysis applied to explicit schemes. A prefactorization of compact schemes is applied to avoid the inversion of a large matrix when calculating the derivatives at the next time level, and a predictor-corrector time marching scheme is used to update the solution in time. A reduction of the isotropy error is attained for large wave numbers and, most notably, the stability restrictions associated with MacCormack time marching schemes are considerably improved. Compared to conventional compact schemes of similar order of accuracy, the multidimensional schemes employ larger stencils which would presumably demand more processing time, but we show that the new stability restrictions render the multidimensional schemes to be in fact more efficient, while maintaining the same dispersion and dissipation characteristics of the one dimensional schemes
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