Add to ORKGThe growth of next-generation sequencing (NGS) datasets poses a challenge to the align-ment of reads to reference genomes in terms of alignment quality and execution speed. Some available aligners have been shown to obtain high quality mappings at the expense of long execution times. Finding fast yet accurate software solutions is of high importance to research, since availability and size of NGS datasets continue to increase. In this work we present an efficient parallelization approach for NGS short-read alignment on multi-core clusters. Our approach takes advantage of a distributed shared memory programming model based on the new UPC++ language. Experimental results using the CUSHAW3 aligner show that our implementation based on dynamic ...
Nowadays heterogeneous architectures formed by multicore and manycore systems have become attractive...
DNA sequence alignment is one of the most important operations of computational biology. In 1981, Sm...
Alignment of long DNA sequences is a challenging task due to its high demands for computational powe...
[Abstract]: The growth of next-generation sequencing (NGS) datasets poses a challenge to the alignme...
The advances in genomic sequencing during the past few years have motivated the development of fast ...
The genome sequence alignment problems are very important ones from the computational biology perspe...
We present a parallel algorithm and scalable implementation for genome analysis, specifically the pr...
Computational methods that employ next-generation sequencing technologies often depend on the alignm...
The challenge of comparing two or more genomes that have undergone recombination and substantial amo...
In large DNA sequence repositories, archival data storage is often coupled with computers that provi...
We introduce a parallel aligner with a work-flow organization for fast and accurate mapping of RNA s...
Ultrascale computing and bioinformatics are two rapidly growing fields with a big impact right now a...
With the advent of High performance computing, it is now possible to achieve orders of magnitude per...
The Partitioned Global Address Space (PGAS) programming paradigm offers ease-of-use in expressing pa...
Abstract—In bioinformatics, short read alignment is a computationally intensive operation that invol...
Nowadays heterogeneous architectures formed by multicore and manycore systems have become attractive...
DNA sequence alignment is one of the most important operations of computational biology. In 1981, Sm...
Alignment of long DNA sequences is a challenging task due to its high demands for computational powe...
[Abstract]: The growth of next-generation sequencing (NGS) datasets poses a challenge to the alignme...
The advances in genomic sequencing during the past few years have motivated the development of fast ...
The genome sequence alignment problems are very important ones from the computational biology perspe...
We present a parallel algorithm and scalable implementation for genome analysis, specifically the pr...
Computational methods that employ next-generation sequencing technologies often depend on the alignm...
The challenge of comparing two or more genomes that have undergone recombination and substantial amo...
In large DNA sequence repositories, archival data storage is often coupled with computers that provi...
We introduce a parallel aligner with a work-flow organization for fast and accurate mapping of RNA s...
Ultrascale computing and bioinformatics are two rapidly growing fields with a big impact right now a...
With the advent of High performance computing, it is now possible to achieve orders of magnitude per...
The Partitioned Global Address Space (PGAS) programming paradigm offers ease-of-use in expressing pa...
Abstract—In bioinformatics, short read alignment is a computationally intensive operation that invol...
Nowadays heterogeneous architectures formed by multicore and manycore systems have become attractive...
DNA sequence alignment is one of the most important operations of computational biology. In 1981, Sm...
Alignment of long DNA sequences is a challenging task due to its high demands for computational powe...