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International Journal of Computer Mathematics Volume 81, 2004 - Issue 9
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Multiple search direction conjugate gradient method I: methods and their propositions

Tongxiang Gu Laboratory of Computational Physics, Institute of Applied Physics and Computational Mathematics, P.O. Box 8009, Beijing, 100088, P.R. China; Supercomputing Center of Computer Network Information Center, Chinese Academy of Science, P.O. Box 349, Beijing, 100080, P.R. ChinaCorrespondence[email protected]
,
Xingping Liu Laboratory of Computational Physics, Institute of Applied Physics and Computational Mathematics, P.O. Box 8009, Beijing, 100088, P.R. China
,
Zeyao Mo Laboratory of Computational Physics, Institute of Applied Physics and Computational Mathematics, P.O. Box 8009, Beijing, 100088, P.R. China
&
Xuebin Chi Supercomputing Center of Computer Network Information Center, Chinese Academy of Science, P.O. Box 349, Beijing, 100080, P.R. China
Pages 1133-1143 | Received 24 Sep 2003, Accepted 10 Mar 2004, Published online: 25 Jan 2007
 
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Abstract

In this article, we proposed a new CG-type method based on domain decomposition method, which is called multiple search direction conjugate gradient (MSD-CG) method. In each iteration, it uses a search direction in each subdomain. Instead of making all search directions conjugate to each other, as in the block CG method [O'Leary, D. P. (1980). The block conjugate gradient algorithm and related methods. Lin. Alg. Appl., 29, 293–322.], we require that they are nonzero in corresponding subdomains only. The GIPF-CG method, an approximate version of the MSD-CG method, only requires communication between neighboring subdomains and eliminate global inner product entirely. This method is therefore well suited for massively parallel computation. We give some propositions and a preconditioned version of the MSD-CG method.

Acknowledgements

The project is supported partly by State Hi-Tech Research and Development Program (863) and Natural Science Fund of China (60373015) and the Foundation of National Key Laboratory of Computational Physics.

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