Abstract Background We present swps3, a vectorized implementation of the Smith-Waterman local alignment algorithm optimized for both the Cell/BE and ×86 architectures. The paper describes swps3 and compares its performances with several other implementations. Findings Our benchmarking results show that swps3 is currently the fastest implementation of a vectorized Smith-Waterman on the Cell/BE, outperforming the only other known implementation by a factor of at least 4: on a Playstation 3, it achieves up to 8.0 billion cell-updates per second (GCUPS). Using the SSE2 instruction set, a quad-core Intel Pentium can reach 15.7 GCUPS. We also show that swps3 on this CPU is faster than a recent GPU implementation. Finally, we note that under some ...
Abstract—This paper describes a multi-threaded parallel design and implementation of the Smith-Water...
Rapid evolution in sequencing technologies results in generating data on an enormous scale. A focal ...
This paper describes a multi-threaded parallel design and implementation of the Smith-Waterman (SM) ...
Abstract Background The exponential growth of available biological data has caused bioinformatics to...
Abstract: Efficient sequence alignment is one of the most important and challenging activities in bi...
The well-known Smith–Waterman (SW) algorithm is the most commonly used method for local sequence ali...
Background Smith-Waterman (S-W) algorithm is an optimal sequence alignment method for biological dat...
Background Searching for similarities in protein and DNA databases has become a routine procedure in...
Abstract—The Smith-Waterman algorithm is a dynamic programming method for determining optimal local ...
The Cell Broadband Engine (BE) Architecture is a new heterogeneous multi-core architecture targeted ...
The Cell Broadband Engine (BE) Architecture is a new heterogeneous multi-core architecture targeted ...
The Smith-Waterman algorithm is a common localsequence alignment method which gives a high accuracy....
Alignment algorithms are used to find similarity between biological sequences, such as DNA and prote...
With the sequencing of DNA becoming cheaper and the resulting stack of data growing bigger, there is...
The exponential growth of databases that contains biological information (such as protein and DNA da...
Abstract—This paper describes a multi-threaded parallel design and implementation of the Smith-Water...
Rapid evolution in sequencing technologies results in generating data on an enormous scale. A focal ...
This paper describes a multi-threaded parallel design and implementation of the Smith-Waterman (SM) ...
Abstract Background The exponential growth of available biological data has caused bioinformatics to...
Abstract: Efficient sequence alignment is one of the most important and challenging activities in bi...
The well-known Smith–Waterman (SW) algorithm is the most commonly used method for local sequence ali...
Background Smith-Waterman (S-W) algorithm is an optimal sequence alignment method for biological dat...
Background Searching for similarities in protein and DNA databases has become a routine procedure in...
Abstract—The Smith-Waterman algorithm is a dynamic programming method for determining optimal local ...
The Cell Broadband Engine (BE) Architecture is a new heterogeneous multi-core architecture targeted ...
The Cell Broadband Engine (BE) Architecture is a new heterogeneous multi-core architecture targeted ...
The Smith-Waterman algorithm is a common localsequence alignment method which gives a high accuracy....
Alignment algorithms are used to find similarity between biological sequences, such as DNA and prote...
With the sequencing of DNA becoming cheaper and the resulting stack of data growing bigger, there is...
The exponential growth of databases that contains biological information (such as protein and DNA da...
Abstract—This paper describes a multi-threaded parallel design and implementation of the Smith-Water...
Rapid evolution in sequencing technologies results in generating data on an enormous scale. A focal ...
This paper describes a multi-threaded parallel design and implementation of the Smith-Waterman (SM) ...