Add to ORKGAligning a set of query sequences to a set of target sequences is an important task in bioinformatics. In this work we present merAligner, a highly parallel sequence aligner that implements a seed-and-extend algorithm and employs parallelism in all of its components. MerAligner relies on a high performance distributed hash table (seed index) and uses onesided communication capabilities of the Unified Parallel C to facilitate a fine-grained parallelism. We leverage communication optimizations at the construction of the distributed hash table and software caching schemes to reduce communication during the aligning phase. Additionally, merAligner preprocesses the target sequences to extract properties enabling exact sequence matching with mini...
Abstract Background Parallel computing is frequently used to speed up computationally expensive task...
Abstract Background One of the most fundamental and challenging tasks in bio-informatics is to ident...
<div><p></p><p>Due to the size of Next-Generation Sequencing data, the computational challenge of se...
Aligning a set of query sequences to a set of target sequences is an important task in bioinformatic...
Abstract—Aligning a set of query sequences to a set of target sequences is an important task in bioi...
Ultrascale computing and bioinformatics are two rapidly growing fields with a big impact right now a...
The challenge of comparing two or more genomes that have undergone recombination and substantial amo...
With the advent of High performance computing, it is now possible to achieve orders of magnitude per...
The genome sequence alignment problems are very important ones from the computational biology perspe...
Sequence Alignment is a basic operation in Bioinformatics that is performed thousands of times, on d...
We present a parallel algorithm and scalable implementation for genome analysis, specifically the pr...
Alignment of long DNA sequences is a challenging task due to its high demands for computational powe...
We introduce a parallel aligner with a work-flow organization for fast and accurate mapping of RNA s...
Biological sequence alignment is a very popular application in Bioinformatics used routinely worldwi...
We propose a parallel algorithm that solves the best k-mismatches alignment problem against a genomi...
Abstract Background Parallel computing is frequently used to speed up computationally expensive task...
Abstract Background One of the most fundamental and challenging tasks in bio-informatics is to ident...
<div><p></p><p>Due to the size of Next-Generation Sequencing data, the computational challenge of se...
Aligning a set of query sequences to a set of target sequences is an important task in bioinformatic...
Abstract—Aligning a set of query sequences to a set of target sequences is an important task in bioi...
Ultrascale computing and bioinformatics are two rapidly growing fields with a big impact right now a...
The challenge of comparing two or more genomes that have undergone recombination and substantial amo...
With the advent of High performance computing, it is now possible to achieve orders of magnitude per...
The genome sequence alignment problems are very important ones from the computational biology perspe...
Sequence Alignment is a basic operation in Bioinformatics that is performed thousands of times, on d...
We present a parallel algorithm and scalable implementation for genome analysis, specifically the pr...
Alignment of long DNA sequences is a challenging task due to its high demands for computational powe...
We introduce a parallel aligner with a work-flow organization for fast and accurate mapping of RNA s...
Biological sequence alignment is a very popular application in Bioinformatics used routinely worldwi...
We propose a parallel algorithm that solves the best k-mismatches alignment problem against a genomi...
Abstract Background Parallel computing is frequently used to speed up computationally expensive task...
Abstract Background One of the most fundamental and challenging tasks in bio-informatics is to ident...
<div><p></p><p>Due to the size of Next-Generation Sequencing data, the computational challenge of se...