Genome analysis benefits precise medical care, wildlife conservation, pandemic treatment, e.g., COVID-19, and so on. Unfortunately, the speed of data processing in genome analysis lags far behind the speed of data generation and hardware acceleration turns out to be necessary. As many key applications in genome analysis are memory-bound, the computation-centric accelerators, e.g., CPU, GPU, and FPGA, face the challenges of limited memory bandwidth and frequent data movement, which leads to sub-optimal performance and energy efficiency.To address these challenges, this dissertation focuses on exploring efficient memory-centric accelerators for genome analysis, including designs and optimizations in both hardware and software. This dissertati...
Next generation workloads, such as genome sequencing, have an astounding impact in the healthcare se...
Pattern matching forms the core of many applications and contributes to a significant fraction of th...
Bioinformatics and computational biology are driven by growing volumes of data in biological systems...
Thesis (Ph.D.)--University of Washington, 2018Advances in next-generation sequencing technology have...
We now need more than ever to make genome analysis more intelligent. We need to read, analyze, and i...
Recent advances in DNA sequencing technology have opened new doors for scientists to use genomic dat...
With over 6000 known genetic disorders, genomics is a key driver to transform the current generation...
High-throughput sequencing (HTS) technologies have revolutionized the field of genomics, enabling ra...
International audienceThis paper presents the implementation of a mapping algorithm on a new Process...
Next Generation Sequencing technologies have had a tremendous impact on our understanding of DNA and...
Since the last decade, the main components of computer systems have been evolving, diversifying, to ...
Bioinformatics is one of the emerging trends in today’s world. The major part of bioinformatics is d...
Genome sequence analysis is central to today’s genomics research, and sequence alignment and Single-...
Next generation workloads, such as genome sequencing, have an astounding impact in the healthcare se...
Over the past few years, DNA sequencing technology has been advancing at such a fast pace that compu...
Next generation workloads, such as genome sequencing, have an astounding impact in the healthcare se...
Pattern matching forms the core of many applications and contributes to a significant fraction of th...
Bioinformatics and computational biology are driven by growing volumes of data in biological systems...
Thesis (Ph.D.)--University of Washington, 2018Advances in next-generation sequencing technology have...
We now need more than ever to make genome analysis more intelligent. We need to read, analyze, and i...
Recent advances in DNA sequencing technology have opened new doors for scientists to use genomic dat...
With over 6000 known genetic disorders, genomics is a key driver to transform the current generation...
High-throughput sequencing (HTS) technologies have revolutionized the field of genomics, enabling ra...
International audienceThis paper presents the implementation of a mapping algorithm on a new Process...
Next Generation Sequencing technologies have had a tremendous impact on our understanding of DNA and...
Since the last decade, the main components of computer systems have been evolving, diversifying, to ...
Bioinformatics is one of the emerging trends in today’s world. The major part of bioinformatics is d...
Genome sequence analysis is central to today’s genomics research, and sequence alignment and Single-...
Next generation workloads, such as genome sequencing, have an astounding impact in the healthcare se...
Over the past few years, DNA sequencing technology has been advancing at such a fast pace that compu...
Next generation workloads, such as genome sequencing, have an astounding impact in the healthcare se...
Pattern matching forms the core of many applications and contributes to a significant fraction of th...
Bioinformatics and computational biology are driven by growing volumes of data in biological systems...