High-speed Multiple Sequence Alignment on a reconfigurable platform Online publication date: Thu, 05-Oct-2006
by Tim Oliver, Bertil Schmidt, Douglas Maskell, Darran Nathan, Ralf Clemens
International Journal of Bioinformatics Research and Applications (IJBRA), Vol. 2, No. 4, 2006
Abstract: Progressive alignment is a widely used approach to compute multiple sequence alignments (MSAs). However, aligning several hundred sequences by popular progressive alignment tools requires hours on sequential computers. Due to the rapid growth of sequence databases biologists have to compute MSAs in a far shorter time. In this paper we present a new approach to MSA on reconfigurable hardware platforms to gain high performance at low cost. We have constructed a linear systolic array to perform pairwise sequence distance computations using dynamic programming. This results in an implementation with significant runtime savings on a standard FPGA.
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