Edson Norberto Cáceres scite author profile

In this paper we present a coarse-grained parallel algorithm for solving the string edit distance problem for a string A and all substrings of a string C. Our method is based on a novel CGM/BSP parallel dynamic programming technique for computing all highest scoring paths in a weighted grid graph. The algorithm requires log p rounds/supersteps and O( n 2 p log m) local computation, where p is the number of processors, p 2 ≤ m ≤ n. To our knowledge, this is the first efficient CGM/BSP algorithm for the alignment of all substrings of C with A. Furthermore, the CGM/BSP parallel dynamic programming technique presented is of interest in its own right and we expect it to lead to other parallel dynamic programming methods for the CGM/BSP.

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A Parallel Wavefront Algorithm for Efficient Biological Sequence Comparison

Alves

Cáceres

Dehne

et al. 2003

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Edson Norberto Cáceres

Efficient Parallel Graph Algorithms for Coarse-Grained Multicomputers and BSP

An all-substrings common subsequence algorithm

Efficient parallel graph algorithms for coarse grained multicomputers and BSP

Parallel dynamic programming for solving the string editing problem on a CGM/BSP

A Parallel Wavefront Algorithm for Efficient Biological Sequence Comparison

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