Article ID: | iaor20132870 |
Volume: | 63 |
Issue: | 1 |
Start Page Number: | 127 |
End Page Number: | 142 |
Publication Date: | May 2013 |
Journal: | Numerical Algorithms |
Authors: | Duminil Sbastien |
Keywords: | computational analysis: parallel computers |
This paper presents an implementation of the CMRH (Changing Minimal Residual method based on the Hessenberg process) iterative method suitable for parallel architectures. CMRH is an alternative to GMRES and QMR, the well‐known Krylov methods for solving linear systems with non‐symmetric coefficient matrices. CMRH generates a (non orthogonal) basis of the Krylov subspace through the Hessenberg process. On dense matrices, it requires less storage than GMRES. Parallel numerical experiments on a distributed memory computer with up to 16 processors are shown on some applications related to the solution of dense linear systems of equations. A comparison with the GMRES method is also provided on those test examples.