We present our work on hardware accelerated genomics pipelines, using either FPGAs or GPUs to accelerate execution of BWA-MEM, a widely-used algorithm for genomic short read mapping. The mapping stage can take up to 40% of overall processing time for genomics pipelines. Our implementation offloads the Seed Extension function, one of the main BWA-MEM computational functions, onto an accelerator. Sequencers typically output reads with a length of 150 base pairs. However, read length is expected to increase in the near future. Here, we investigate the influence of read length on BWA-MEM performance using data sets with read length up to 400 base pairs, and introduce methods to ameliorate the impact of longer read length. For the industry-stand...
Due to the many advances made in designing algorithms, especially the ones used in bioinformatics, i...
Thesis (Ph.D.)--University of Washington, 2018Advances in next-generation sequencing technology have...
One of the key challenges facing genomics today is how to efficiently analyze the massive amounts of...
We present our work on hardware accelerated genomics pipelines, using either FPGAs or GPUs to accele...
Next Generation Sequencing techniques have resulted in an exponential growth in the generation of ge...
Developments in sequencing technology have drastically reduced the cost of DNA sequencing. The raw s...
We present the first accelerated implementation of BWA-MEM, a popular genome sequence alignment algo...
Next Generation Sequencing techniques have dramatically reduced the cost of sequencing genetic mater...
Next Generation Sequencing technologies have had a tremendous impact on our understanding of DNA and...
Abstract—In bioinformatics, short read alignment is a computationally intensive operation that invol...
DNA aligning is a compute-intensive and time-consuming task required for all further DNA processing....
Genome analysis benefits precise medical care, wildlife conservation, pandemic treatment, e.g., COVI...
Background The rapid growth of short read datasets poses a new challenge to the short read mapping ...
With the advent of Next Generation Sequencing (NGS), the cost of sequencing human DNA has decreased ...
Over the past 20 years, the cost of sequencing genomes has reduced drastically. As DNA data grows at...
Due to the many advances made in designing algorithms, especially the ones used in bioinformatics, i...
Thesis (Ph.D.)--University of Washington, 2018Advances in next-generation sequencing technology have...
One of the key challenges facing genomics today is how to efficiently analyze the massive amounts of...
We present our work on hardware accelerated genomics pipelines, using either FPGAs or GPUs to accele...
Next Generation Sequencing techniques have resulted in an exponential growth in the generation of ge...
Developments in sequencing technology have drastically reduced the cost of DNA sequencing. The raw s...
We present the first accelerated implementation of BWA-MEM, a popular genome sequence alignment algo...
Next Generation Sequencing techniques have dramatically reduced the cost of sequencing genetic mater...
Next Generation Sequencing technologies have had a tremendous impact on our understanding of DNA and...
Abstract—In bioinformatics, short read alignment is a computationally intensive operation that invol...
DNA aligning is a compute-intensive and time-consuming task required for all further DNA processing....
Genome analysis benefits precise medical care, wildlife conservation, pandemic treatment, e.g., COVI...
Background The rapid growth of short read datasets poses a new challenge to the short read mapping ...
With the advent of Next Generation Sequencing (NGS), the cost of sequencing human DNA has decreased ...
Over the past 20 years, the cost of sequencing genomes has reduced drastically. As DNA data grows at...
Due to the many advances made in designing algorithms, especially the ones used in bioinformatics, i...
Thesis (Ph.D.)--University of Washington, 2018Advances in next-generation sequencing technology have...
One of the key challenges facing genomics today is how to efficiently analyze the massive amounts of...