Genetic information is increasing exponentially, doubling every 18 months. Analyzing this infor-mation within a reasonable amount of time requires parallel computing resources. While consid-erable research has addressed DNA analysis using GPUs, so far not much attention has been paid to the Intel Xeon Phi coprocessor. In this paper we present an algorithm for large-scale DNA anal-ysis that exploits the thread-level and the SIMD parallelism of the Intel Xeon Phi coprocessor. We evaluate our approach for various numbers of cores and thread allocation affinities in the context of real-world DNA sequences of mouse, cat, dog, chicken, human and turkey. The experimental results on Intel Xeon Phi show speed-ups of up to 10 × compared to a sequenti...
In this paper I describe and extend a new DNA computing paradigm introduced in Blumberg for buildi...
Abstract—With early hardware limitations of the GPU ( lack of synchronization primitives and limited...
Measuring similarities between large sequences of genetic information is a formidable task requiring...
Genetic information is increasing exponentially, doubling every 18 months. Analyzing this informatio...
Genetic information is increasing exponentially, doubling every 18 months. Analyzing this informatio...
Abstract—Genetic information is increasing exponentially, dou-bling every 18 months. Analyzing this ...
Abstract—Rapid analysis of DNA sequences is important in preventing the evolution of different virus...
Rapid analysis of DNA sequences is important in preventing the evolution of different viruses and ba...
Abstract—Construction of whole-genome networks from large-scale gene expression data is an important...
The next-generation sequencing instruments enable biological researchers to generate voluminous amou...
There is an increasing need for sensitive, high perfomance sequence alignemnet tools. With the growi...
The seeding heuristic is widely used in many DNA analysis applications to speed up the analysis time...
Over the past few years, DNA sequencing technology has been advancing at such a fast pace that compu...
Next generation sequencing (NGS) technologies have transformed the landscape of genomic research. Wi...
Recent advances in DNA sequencing technology have opened new doors for scientists to use genomic dat...
In this paper I describe and extend a new DNA computing paradigm introduced in Blumberg for buildi...
Abstract—With early hardware limitations of the GPU ( lack of synchronization primitives and limited...
Measuring similarities between large sequences of genetic information is a formidable task requiring...
Genetic information is increasing exponentially, doubling every 18 months. Analyzing this informatio...
Genetic information is increasing exponentially, doubling every 18 months. Analyzing this informatio...
Abstract—Genetic information is increasing exponentially, dou-bling every 18 months. Analyzing this ...
Abstract—Rapid analysis of DNA sequences is important in preventing the evolution of different virus...
Rapid analysis of DNA sequences is important in preventing the evolution of different viruses and ba...
Abstract—Construction of whole-genome networks from large-scale gene expression data is an important...
The next-generation sequencing instruments enable biological researchers to generate voluminous amou...
There is an increasing need for sensitive, high perfomance sequence alignemnet tools. With the growi...
The seeding heuristic is widely used in many DNA analysis applications to speed up the analysis time...
Over the past few years, DNA sequencing technology has been advancing at such a fast pace that compu...
Next generation sequencing (NGS) technologies have transformed the landscape of genomic research. Wi...
Recent advances in DNA sequencing technology have opened new doors for scientists to use genomic dat...
In this paper I describe and extend a new DNA computing paradigm introduced in Blumberg for buildi...
Abstract—With early hardware limitations of the GPU ( lack of synchronization primitives and limited...
Measuring similarities between large sequences of genetic information is a formidable task requiring...