De Bruijn graph construction is a basic component in de novo genome assembly for short reads generated from the second-generation sequencing machines. As this component processes a large amount of data and performs intensive computation, we propose to use the GPU (Graphics Processing Unit) for acceleration. Specifically, we propose a staged algorithm to utilize the GPU for computation over large data sets that do not fit into the GPU memory. We also pipeline the I/O, GPU, and CPU processing to further improve the overall performance. Our preliminary results show that our GPU-accelerated graph construction on an NVIDIA S1070 server achieves a speedup of around two times over previous performance results on a 1024-node IBM Blue Gene/L. © 2013...
De novo assembly is a widely used methodology in bioinformatics. However, the conventional short-rea...
Motivation: Efficient and fast NGS algorithms are essential to ana-lyze the terabytes of data genera...
Next generation sequencing (NGS) technologies have transformed the landscape of genomic research. Wi...
In order to improve the accuracy of indel detection, micro-assembly is used in multiple variant call...
Emerging next-generation sequencing technologies have opened up exciting new opportunities for genom...
Over the past few years, DNA sequencing technology has been advancing at such a fast pace that compu...
De novo whole genome assembly reconstructs genomic sequence from short, overlapping, and potentially...
The recent advent of massively parallel sequencing technologies has drastically reduced the cost of ...
Advanced architectures can deliver dramatically increased throughput for genomics and proteomics app...
Abstract—De novo whole genome assembly reconstructs ge-nomic sequence from short, overlapping, and p...
The development of next-generation sequencing technologies has revolutionized the genome research an...
BACKGROUND: Next-generation sequencing technologies have given rise to the explosive increase in DNA...
Abstract—Emerging next-generation sequencing technologies have opened up exciting new opportunities ...
International audienceMany bioinformatics studies require the analysis of RNA or DNA structures. Mor...
The analysis of biological networks has become a major challenge due to the recent development of hi...
De novo assembly is a widely used methodology in bioinformatics. However, the conventional short-rea...
Motivation: Efficient and fast NGS algorithms are essential to ana-lyze the terabytes of data genera...
Next generation sequencing (NGS) technologies have transformed the landscape of genomic research. Wi...
In order to improve the accuracy of indel detection, micro-assembly is used in multiple variant call...
Emerging next-generation sequencing technologies have opened up exciting new opportunities for genom...
Over the past few years, DNA sequencing technology has been advancing at such a fast pace that compu...
De novo whole genome assembly reconstructs genomic sequence from short, overlapping, and potentially...
The recent advent of massively parallel sequencing technologies has drastically reduced the cost of ...
Advanced architectures can deliver dramatically increased throughput for genomics and proteomics app...
Abstract—De novo whole genome assembly reconstructs ge-nomic sequence from short, overlapping, and p...
The development of next-generation sequencing technologies has revolutionized the genome research an...
BACKGROUND: Next-generation sequencing technologies have given rise to the explosive increase in DNA...
Abstract—Emerging next-generation sequencing technologies have opened up exciting new opportunities ...
International audienceMany bioinformatics studies require the analysis of RNA or DNA structures. Mor...
The analysis of biological networks has become a major challenge due to the recent development of hi...
De novo assembly is a widely used methodology in bioinformatics. However, the conventional short-rea...
Motivation: Efficient and fast NGS algorithms are essential to ana-lyze the terabytes of data genera...
Next generation sequencing (NGS) technologies have transformed the landscape of genomic research. Wi...