Assessment of some iterative methods for non-symmetric linear systems arising in computational fluid dynamics |
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Authors: | Antonio Soria,Fran ois Ruel |
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Affiliation: | Antonio Soria,François Ruel |
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Abstract: | Various tests have been carried out in order to compare the performances of several methods used to solve the non-symmetric linear systems of equations arising from implicit discretizations of CFD problems, namely the scalar advection-diffusion equation and the compressible Euler equations. The iterative schemes under consideration belong to three families of algorithms: relaxation (Jacobi and Gauss-Seidel), gradient and Newton methods. Two gradient methods have been selected: a Krylov subspace iteration method (GMRES) and a non-symmetric extension of the conjugate gradient method (CGS). Finally, a quasi-Newton method has also been considered (Broyden). The aim of this paper is to provide indications of which appears to be the most adequate method according to the particular circumstances as well as to discuss the implementation aspects of each scheme. |
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Keywords: | implicit schemes non-symmetric matrices iterative procedures relaxation methods gradient methods quasinewton methods convection-diffusion equation Euler equation |
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