Protein sequences with unknown functionality are often compared to a set of known sequences to detect functional similarities. Efficient dynamic programming algorithms exist for this problem, however current solutions still require significant scan times. These scan time requirements are likely to become even more severe due to the rapid growth in the size of these databases. In this paper, we present a new approach to bio-sequence database scanning using computer graphics hardware to gain high performance at low cost. To derive an efficient mapping onto this type of architecture, we have reformulated the Smith- Waterman dynamic programming algorithm in terms of computer graphics primitives. Our OpenGL implementation achieves a speedup of a...
CUDA is a technology introduced by NVIDIA Corporation, which allows software developers to take adva...
With the dramatically increasing amounts of genomic sequence database, there is a need for faster an...
With the dramatically increasing amounts of genomic sequence database, there is a need for faster an...
Sequence alignment is a common and often repeated task in molecular biology. The need for speeding u...
Alignment algorithms are used to find similarity between biological sequences, such as DNA and prote...
Sequence alignment is a common and often repeated task in molecular biology. Typical alignment opera...
Background Searching for similarities in protein and DNA databases has become a routine procedure in...
Abstract — Comparing genetic sequences is a well-known prob-lem in bioinformatics. Newly determined ...
Molecular biologists frequently compare an unknown protein sequence with a set of other known sequen...
Background Smith-Waterman (S-W) algorithm is an optimal sequence alignment method for biological dat...
The enormous growth of biological sequence databases has caused bioinformatics to be rapidly moving ...
We created a powerful computing platform based on video cards with the goal of accelerating the perf...
Bioinformatics and Computational Biology (BCB) is a relatively new multidisciplinary field which bri...
The Smith-Waterman (SW) algorithm has been widely utilized for searching biological sequence databas...
Graphics processor a b s t r a c t Finding regions of similarity between two very long data streams ...
CUDA is a technology introduced by NVIDIA Corporation, which allows software developers to take adva...
With the dramatically increasing amounts of genomic sequence database, there is a need for faster an...
With the dramatically increasing amounts of genomic sequence database, there is a need for faster an...
Sequence alignment is a common and often repeated task in molecular biology. The need for speeding u...
Alignment algorithms are used to find similarity between biological sequences, such as DNA and prote...
Sequence alignment is a common and often repeated task in molecular biology. Typical alignment opera...
Background Searching for similarities in protein and DNA databases has become a routine procedure in...
Abstract — Comparing genetic sequences is a well-known prob-lem in bioinformatics. Newly determined ...
Molecular biologists frequently compare an unknown protein sequence with a set of other known sequen...
Background Smith-Waterman (S-W) algorithm is an optimal sequence alignment method for biological dat...
The enormous growth of biological sequence databases has caused bioinformatics to be rapidly moving ...
We created a powerful computing platform based on video cards with the goal of accelerating the perf...
Bioinformatics and Computational Biology (BCB) is a relatively new multidisciplinary field which bri...
The Smith-Waterman (SW) algorithm has been widely utilized for searching biological sequence databas...
Graphics processor a b s t r a c t Finding regions of similarity between two very long data streams ...
CUDA is a technology introduced by NVIDIA Corporation, which allows software developers to take adva...
With the dramatically increasing amounts of genomic sequence database, there is a need for faster an...
With the dramatically increasing amounts of genomic sequence database, there is a need for faster an...