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BIBE
2008
IEEE
2008
IEEE
Optimizing performance, cost, and sensitivity in pairwise sequence search on a cluster of PlayStations
— The Smith-Waterman algorithm is a dynamic programming method for determining optimal local alignments between nucleotide or protein sequences. However, it suffers from quadratic time and space complexity. As a result, many algorithmic and architectural enhancements have been proposed to solve this problem, but at the cost of reduced sensitivity in the algorithms or significant expense in hardware, respectively. This paper presents a highly efficient parallelization of the Smith-Waterman algorithm on the Cell Broadband Engine platform, a novel hybrid multicore architecture that drives the low-cost PlayStation 3 (PS3) game consoles as well as the IBM BladeCenter Q22, which currently powers the fastest supercomputer in the world, Roadrunner at Los Alamos National Laboratory. Through an innovative mapping of the optimal Smith-Waterman algorithm onto a cluster of PlayStation 3 nodes, our implementation delivers 21 to 55-fold speed-up over a high-end multicore architecture and up to 44...
Real-time TrafficBIBE 2008 | Bioinformatics | Multicore Architecture | Optimal Smith-waterman Algorithm | Smith-Waterman Algorithm |
Related Content
| Added | 29 May 2010 |
| Updated | 29 May 2010 |
| Type | Conference |
| Year | 2008 |
| Where | BIBE |
| Authors | Ashwin M. Aji, Wu-chun Feng |
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