Title :
Reconfigurable hardware-based genome aligner using quality scores
Author :
Gok, M.Y. ; Sagiroglu, M.S. ; Unsalan, C. ; Goren, Sezer
Author_Institution :
Ileri Genetik Biyoinformatik Arastirmalar Merkezi, BILGEM, Kocaeli, Turkey
Abstract :
Smith Waterman Algorithm is a widely used tool in bioinformatics to align reads from aligning to a reference in whole genome sequencing. Mapping millions of sequences read from sequencing is a computationally expensive operation. Accuracy and performance are two important aspects of this process. FPGA based solutions are widely studied. In this paper we tried to achieve a better mapping accuracy for optimum alignment using quality scores of the bases of read sequences while keeping the performance high. We are offering a new Smith Waterman processing unit and systolic array based on quality scores.
Keywords :
bioinformatics; field programmable gate arrays; genomics; reconfigurable architectures; FPGA-based solutions; Smith Waterman algorithm; bioinformatics; field programmable gate arrays; genome sequencing; quality scores; read sequence mapping; reconfigurable hardware-based genome aligner; systolic array; Arrays; Bioinformatics; DNA; Field programmable gate arrays; Genomics; Very large scale integration; Alignment; Bioinformatics; Field Progmammable Gate Array; Hardware Alignment Quality Scores;
Conference_Titel :
Signal Processing and Communications Applications Conference (SIU), 2013 21st
Conference_Location :
Haspolat
Print_ISBN :
978-1-4673-5562-9
Electronic_ISBN :
978-1-4673-5561-2
DOI :
10.1109/SIU.2013.6531567
