We are pleased to announce that there will be a paper published at the High Performance Computing for Big Data Computational Biology workshop taking place between 9-12th November in Washington D.C. The event is in conjunction with IEEE International Conference on Bioinformatics and Biomedicine (BIBM)
The paper – researched and written in a collaboration between Computer Engineering Lab at Delft University of Technology and BlueBee – describes how FPGA implementation of the pair-HMMs algorithm scales up to 67x faster vs. software-only execution.
FPGA Acceleration of the Pair-HMMs Forwards Algorithm for DNA Sequence Analysis
“Abstract—Many DNA sequence analysis tools have been developed to turn the massive raw DNA sequencing data generated by NGS (Next Generation Sequencing) platforms into biologically meaningful information. The pair-HMMs forward algorithm is widely used to calculate the overall alignment probability needed by a number of DNA analysis tools. In this paper, we propose a novel systolic array design to accelerate the pair-HMMs forward algorithm on FPGAs. A number of architectural features have been implemented to improve the performance of the design, such as early exit points to increase the utilization of the array for small sequence sizes, as well as on-chip buffering to enable the processing of long sequences effectively. We present an implementation of the design on the Convey supercomputing platform. Experimental results show that the FPGA implementation of the pair-HMMs forward algorithm is up to 67x faster, compared to software-only execution.”
Authors: Shanshan Ren, Vlad-Mihai Sima and Zaid Al-Alrs
FPGA Acceleration paper.pdf[/vc_column_text][/vc_column][/vc_row]