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JOURNAL ARTICLE

Hardware Accelerator for Genomic Sequence Alignment

Jason ChiangMichael StudnibergJack O. ShawStephen SetoKevin Truong

Year: 2006 Journal:   Conference proceedings   Publisher: Institute of Electrical and Electronics Engineers
DOI: 10.1109/iembs.2006.4398772
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Abstract

To infer homology and subsequently gene function, the Smith-Waterman algorithm is used to find the optimal local alignment between two sequences. When searching sequence databases that may contain billions of sequences, this algorithm becomes computationally expensive. Consequently, in this paper, we focused on accelerating the Smith-Waterman algorithm by modifying the computationally repeated portion of the algorithm by FPGA hardware custom instructions. These simple modifications accelerated the algorithm runtime by an average of 287% compared to the pure software implementation. Therefore, further design of FPGA accelerated hardware offers a promising direction to seeking runtime improvement of genomic database searching

Keywords:
Smith–Waterman algorithm Field-programmable gate array Computer science Parallel computing Software Sequence (biology) Hardware acceleration Sequence alignment Simple (philosophy) Function (biology) Algorithm Computer hardware Programming language Biology

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Citation History

Topics

Algorithms and Data Compression
Physical Sciences →  Computer Science →  Artificial Intelligence
Error Correcting Code Techniques
Physical Sciences →  Computer Science →  Computer Networks and Communications
Genomics and Phylogenetic Studies
Life Sciences →  Biochemistry, Genetics and Molecular Biology →  Molecular Biology

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