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IPPS
2000
IEEE

On Optimal Fill-Preserving Orderings of Sparse Matrices for Parallel Cholesky Factorizations

14 years 4 months ago
On Optimal Fill-Preserving Orderings of Sparse Matrices for Parallel Cholesky Factorizations
In this paper, we consider the problem of nding llpreserving ordering of a sparse symmetric and positive de nite matrix such that the reordered matrix is suitable for parallel factorization. We extended the unitcost ll-preserving ordering into a generalized class that can adopt various aspects in parallel factorization, such as computation, communication and algorithmic diversity. Based on the elimination tree model, we show that as long as the node cost function for factoring a column row satis es two mandatory properties, we can deploy a greedy-based algorithm to nd the corresponding optimal ordering. The complexity of our algorithm is Oqlogq+, where q denote the number of maximal cliques, and  the sum of all maximal clique sizes in the lled graph. Our experiments reveal that on the average, our minimum completion cost ordering MinCP would reduce up to 17 the cost to factor than minimum height ordering Jess-Kees.
Wen-Yang Lin, Chuen-Liang Chen
Added 31 Jul 2010
Updated 31 Jul 2010
Type Conference
Year 2000
Where IPPS
Authors Wen-Yang Lin, Chuen-Liang Chen
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