Abstract Background The multiple sequence alignment (MSA) is a classic and powerful technique for sequence analysis in bioinformatics. With the rapid growth of biological datasets, MSA parallelization becomes necessary to keep its running time in an acceptable level. Although there are a lot of work on MSA problems, their approaches are either insufficient or contain some implicit assumptions that limit the generality of usage. First, the information of users’ sequences, including the sizes of datasets and the lengths of sequences, can be of arbitrary values and are generally unknown before submitted, which are unfortunately ignored by previous work. Second, the center star strategy is suited for aligning similar sequences. But its first st...
Background Due the computational complexity of sequence alignment algorithms, various accelerated so...
BackgroundBioinformatic workflows frequently make use of automated genome assembly and protein clust...
The recent availability of new, less expensive high-throughput DNA sequencing technologies has yield...
Massively parallel DNA sequencing technologies have revolutionized genomics and molecular biology by...
Rapid evolution in sequencing technologies results in generating data on an enormous scale. A focal ...
Abstract Background Multiple sequence alignment (MSA) is a fundamental analysis method used in bioin...
Sequence alignment is a common and often repeated task in molecular biology. Typical alignment opera...
Graphics processor a b s t r a c t Finding regions of similarity between two very long data streams ...
Multiple sequence alignment (MSA) is a technique for finding similarity in many sequences. This tech...
Biological sequence alignment is a very popular application in Bioinformatics used routinely worldwi...
The idea of using a graphics processing unit (GPU) for more than simply graphic output purposes has ...
Background Due the computational complexity of sequence alignment algorithms, various accelerated so...
Background Searching for similarities in protein and DNA databases has become a routine procedure in...
Alignment algorithms are used to find similarity between biological sequences, such as DNA and prote...
Genome sequence analysis is central to today’s genomics research, and sequence alignment and Single-...
Background Due the computational complexity of sequence alignment algorithms, various accelerated so...
BackgroundBioinformatic workflows frequently make use of automated genome assembly and protein clust...
The recent availability of new, less expensive high-throughput DNA sequencing technologies has yield...
Massively parallel DNA sequencing technologies have revolutionized genomics and molecular biology by...
Rapid evolution in sequencing technologies results in generating data on an enormous scale. A focal ...
Abstract Background Multiple sequence alignment (MSA) is a fundamental analysis method used in bioin...
Sequence alignment is a common and often repeated task in molecular biology. Typical alignment opera...
Graphics processor a b s t r a c t Finding regions of similarity between two very long data streams ...
Multiple sequence alignment (MSA) is a technique for finding similarity in many sequences. This tech...
Biological sequence alignment is a very popular application in Bioinformatics used routinely worldwi...
The idea of using a graphics processing unit (GPU) for more than simply graphic output purposes has ...
Background Due the computational complexity of sequence alignment algorithms, various accelerated so...
Background Searching for similarities in protein and DNA databases has become a routine procedure in...
Alignment algorithms are used to find similarity between biological sequences, such as DNA and prote...
Genome sequence analysis is central to today’s genomics research, and sequence alignment and Single-...
Background Due the computational complexity of sequence alignment algorithms, various accelerated so...
BackgroundBioinformatic workflows frequently make use of automated genome assembly and protein clust...
The recent availability of new, less expensive high-throughput DNA sequencing technologies has yield...