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Sci2ools
SC
2009
ACM
2009
ACM
Highly scalable genome assembly on campus grids
Bioinformatics researchers need efficient means to process large collections of sequence data. One application of interest, genome assembly, has great potential for parallelization, however most previous attempts at parallelization require uncommon high-end hardware. This paper introduces a scalable modular genome assembler that can achieve significant speedup using large numbers of conventional desktop machines, such as those found in a campus computing grid. The system is based on the Celera open-source assembly toolkit, and replaces two independent sequential modules with scalable replacements: a scalable candidate selector exploits the distributed memory capacity of a campus grid, while the scalable aligner exploits the distributed computing capacity. For large problems, these modules provide robust task and data management while also achieving speedup with high efficiency on several scales of resources. We show results for several datasets ranging from 738 thousand to over 121...
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| Added | 19 May 2010 |
| Updated | 19 May 2010 |
| Type | Conference |
| Year | 2009 |
| Where | SC |
| Authors | Christopher Moretti, Michael Olson, Scott J. Emrich, Douglas Thain |
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