Title :
FPGA Acceleration of Phylogeny Reconstruction for Whole Genome Data
Author :
Bakos, Jason D. ; Elenis, Panormitis E. ; Tang, Jijun
Author_Institution :
Univ. of South Carolina, Columbia
Abstract :
In this paper we describe our design and characterization of a co-processor architecture to accelerate median-based phylogenetic reconstruction for gene-rearrangement data. Our current design performs a parallelized version of the breakpoint median computation and achieves an average speedup of 876 for simulated input data having a high evolution rate. After integrating our hardware-based median computation into the GRAPPA toolset, we have achieved an average speedup of 189 over the entire phylogenetic reconstruction procedure. The results in this paper suggest that FPGA-based acceleration is a promising approach for computationally expensive phylogenetic problems that are based on combinatorial optimization.
Keywords :
biology computing; evolution (biological); field programmable gate arrays; genetics; optimisation; FPGA acceleration; GRAPPA toolset; breakpoint median computation; co-processor architecture; combinatorial optimization; gene-rearrangement data; genome analysis; hardware-based median computation; median-based phylogenetic reconstruction; parsimony phylogenetic algorithm; phylogeny reconstruction; reconfigurable computing;; Acceleration; Bioinformatics; Computational modeling; Computer architecture; Concurrent computing; Coprocessors; Field programmable gate arrays; Genomics; High performance computing; Phylogeny; FPGA; gene-rearrangment; genome analysis; high-performance; phylogeny; reconfigurable computing; whole-genome;
Conference_Titel :
Bioinformatics and Bioengineering, 2007. BIBE 2007. Proceedings of the 7th IEEE International Conference on
Conference_Location :
Boston, MA
Print_ISBN :
978-1-4244-1509-0
DOI :
10.1109/BIBE.2007.4375664
