The enormous growth of biological sequence databases has caused bioinformatics to be rapidly moving towards a data-intensive, computational science. As a result, the computational power needed by bioinformatics applications is growing rapidly as well. The recent emergence of low cost parallel accelerator technologies has made it possible to reduce execution times of many bioinformatics applications. In this paper, we demonstrate how the PlayStation®3, powered by the Cell Broadband Engine, can be used as an efficient computational platform to accelerate the popular BLASTP algorithm
BackgroundSolving bioinformatics tasks often requires extensive computational power. Recent trends i...
Exponential growth in biological sequence data combined with the computationally intensive nature of...
This paper introduces an FPGA-based scheme to accelerate mpiBLAST, which is a parallel sequence alig...
The enormous growth of biological sequence databases has caused bioinformatics to be rapidly moving ...
This paper evaluates the performance of bioinformatics applications on the Cell Broadband Engine (Ce...
Abstract Background The exponential growth of available biological data has caused bioinformatics to...
The Cell Broadband Engine (BE) Architecture is a new heterogeneous multi-core architecture targeted ...
The Cell Broadband Engine Architecture is a new heterogeneous multi-core architecture targeted at co...
The Cell Broadband Engine (BE) Architecture is a new heterogeneous multi-core architecture targeted ...
The Cell Broadband Engine architecture is a revolutionary processor architecture well suited for man...
IBM’s Cell Broadband Engine (Cell BE) [8] is an novel computing platform that provides a unique set ...
Searching protein sequence database is a fundamental and often repeated task in computational biolog...
The Cell Broadband Engine is a heterogeneous multi-core processor architecture thattrades ease-of-pr...
The Cell Broadband Engine (BE) Architecture is a new heterogeneous multi-core architecture targeted ...
This chapter demonstrates that NPUs are a promising platform for implementing certain algorithms in ...
BackgroundSolving bioinformatics tasks often requires extensive computational power. Recent trends i...
Exponential growth in biological sequence data combined with the computationally intensive nature of...
This paper introduces an FPGA-based scheme to accelerate mpiBLAST, which is a parallel sequence alig...
The enormous growth of biological sequence databases has caused bioinformatics to be rapidly moving ...
This paper evaluates the performance of bioinformatics applications on the Cell Broadband Engine (Ce...
Abstract Background The exponential growth of available biological data has caused bioinformatics to...
The Cell Broadband Engine (BE) Architecture is a new heterogeneous multi-core architecture targeted ...
The Cell Broadband Engine Architecture is a new heterogeneous multi-core architecture targeted at co...
The Cell Broadband Engine (BE) Architecture is a new heterogeneous multi-core architecture targeted ...
The Cell Broadband Engine architecture is a revolutionary processor architecture well suited for man...
IBM’s Cell Broadband Engine (Cell BE) [8] is an novel computing platform that provides a unique set ...
Searching protein sequence database is a fundamental and often repeated task in computational biolog...
The Cell Broadband Engine is a heterogeneous multi-core processor architecture thattrades ease-of-pr...
The Cell Broadband Engine (BE) Architecture is a new heterogeneous multi-core architecture targeted ...
This chapter demonstrates that NPUs are a promising platform for implementing certain algorithms in ...
BackgroundSolving bioinformatics tasks often requires extensive computational power. Recent trends i...
Exponential growth in biological sequence data combined with the computationally intensive nature of...
This paper introduces an FPGA-based scheme to accelerate mpiBLAST, which is a parallel sequence alig...