DNA and Protein Sequence Alignment with High Performance Reconfigurable Systems

A
AHS
2007
Second NASA/ESA Conference on Adaptive Hardware and Systems (AHS 2007)
Abstract - DNA and Protein Sequence Alignment with High Performance Reconfigurable Systems

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Second NASA/ESA Conference on Adaptive Hardware and Systems (AHS 2007)

University of Edinburgh, Scotland, United Kingdom

August 05-August 08

ISBN: 0-7695-2866-X

	ASCII Text	x
	Mohamed Abouellail, Esam El-Araby, Mohamed Taher, "DNA and Protein Sequence Alignment with High Performance Reconfigurable Systems," Adaptive Hardware and Systems, NASA/ESA Conference on, pp. 334-341, Second NASA/ESA Conference on Adaptive Hardware and Systems (AHS 2007), 2007.

	BibTex	x
	@article{ 10.1109/AHS.2007.45, author = {Mohamed Abouellail and Esam El-Araby and Mohamed Taher}, title = {DNA and Protein Sequence Alignment with High Performance Reconfigurable Systems}, journal ={Adaptive Hardware and Systems, NASA/ESA Conference on}, volume = {0}, year = {2007}, isbn = {0-7695-2866-X}, pages = {334-341}, doi = {http://doi.ieeecomputersociety.org/10.1109/AHS.2007.45}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - Adaptive Hardware and Systems, NASA/ESA Conference on TI - DNA and Protein Sequence Alignment with High Performance Reconfigurable Systems SN - 0-7695-2866-X SP334 EP341 A1 - Mohamed Abouellail, A1 - Esam El-Araby, A1 - Mohamed Taher, PY - 2007 KW - null VL - 0 JA - Adaptive Hardware and Systems, NASA/ESA Conference on ER -

Mohamed Abouellail, George Washington University

Esam El-Araby, George Washington University

Mohamed Taher, George Washington University

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/AHS.2007.45

Biological sequence alignment is an extremely important task in the field of computational biology. This paper presents an FPGA based solution which exploits the multiple granularities of hardware parallelism available in a highperformance reconfigurable computer system. Thus, multiple cores are implemented per chip and system level parallelism is achieved via message passing. The design was developed in VHDL, with the message passing interface (MPI) providing for system level parallelism and implemented on both the Cray XD1 and SRC systems. The results will show order of magnitude speed up when compared with modern microprocessors. The study is also used to provide some insight into the architectural issues associated with modern high-performance reconfigurable computers.

Citation:

Mohamed Abouellail, Esam El-Araby, Mohamed Taher, "DNA and Protein Sequence Alignment with High Performance Reconfigurable Systems," ahs, pp.334-341, Second NASA/ESA Conference on Adaptive Hardware and Systems (AHS 2007), 2007

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