Abstract: Solving problems in bioinformatics often needs extensive computational power. Current trends in processor architecture, especially massive multi-core proces-sors for graphic cards, combine a large number of cores into a single chip to improve the overall performance. The Compute Unified Device Architecture (CUDA) provides programming interfaces to make full use of the computing power of graphics process-ing units. We present a way to use CUDA for substantial performance improvement of methods based on multi-dimensional scaling (MDS). The suitability of the CUDA architecture as a high-performance computing platform is studied by adapting a MDS algorithm on specific hardware properties. We show how typical bioinformatics prob-lems r...
Abstract—This paper describes a multi-threaded parallel design and implementation of the Smith-Water...
Mining the increasing amount of genomic data requires having very efficient tools. Increasing the ef...
It is shown how Nvidia Cuda can contribute to the analysis of DNA data. Three approaches are describ...
Abstract: Solving problems in bioinformatics often needs extensive computational power. Current tren...
Background: Multidimensional scaling (MDS) is a widely used approach to dimensionality reduction. It...
The bioinformatics research area is now faced with an obstacle of ever-increasing biological data to...
The need to analyze large amounts of multivariate data raises the fundamental problem of dimen-siona...
The analysis of biological networks has become a major challenge due to the recent development of hi...
Massively parallel DNA sequencing technologies have revolutionized genomics and molecular biology by...
We created a powerful computing platform based on video cards with the goal of accelerating the perf...
The idea of using a graphics processing unit (GPU) for more than simply graphic output purposes has ...
This paper describes a multi-threaded parallel design and implementation of the Smith-Waterman (SM) ...
International audienceMany bioinformatics studies require the analysis of RNA or DNA structures. Mor...
Using two full applications with different characteristics, this thesis explores the performance and...
Markov clustering is becoming a key algorithm within bioinformatics for determining clusters in netw...
Abstract—This paper describes a multi-threaded parallel design and implementation of the Smith-Water...
Mining the increasing amount of genomic data requires having very efficient tools. Increasing the ef...
It is shown how Nvidia Cuda can contribute to the analysis of DNA data. Three approaches are describ...
Abstract: Solving problems in bioinformatics often needs extensive computational power. Current tren...
Background: Multidimensional scaling (MDS) is a widely used approach to dimensionality reduction. It...
The bioinformatics research area is now faced with an obstacle of ever-increasing biological data to...
The need to analyze large amounts of multivariate data raises the fundamental problem of dimen-siona...
The analysis of biological networks has become a major challenge due to the recent development of hi...
Massively parallel DNA sequencing technologies have revolutionized genomics and molecular biology by...
We created a powerful computing platform based on video cards with the goal of accelerating the perf...
The idea of using a graphics processing unit (GPU) for more than simply graphic output purposes has ...
This paper describes a multi-threaded parallel design and implementation of the Smith-Waterman (SM) ...
International audienceMany bioinformatics studies require the analysis of RNA or DNA structures. Mor...
Using two full applications with different characteristics, this thesis explores the performance and...
Markov clustering is becoming a key algorithm within bioinformatics for determining clusters in netw...
Abstract—This paper describes a multi-threaded parallel design and implementation of the Smith-Water...
Mining the increasing amount of genomic data requires having very efficient tools. Increasing the ef...
It is shown how Nvidia Cuda can contribute to the analysis of DNA data. Three approaches are describ...