International audienceMany bioinformatics studies require the analysis of RNA or DNA structures. More specifically, extensive work is done to elaborate efficient algorithms able to predict the 2-D folding structures of RNA or DNA sequences. However, the high computational complexity of the algorithms, combined with the rapid increase of genomic data, triggers the need of faster methods. Current approaches focus on parallelizing these algorithms on multiprocessor systems or on clusters, yielding to good performance but at a relatively high cost. Here, we explore the use of computer graphics hardware to speed up these algorithms which, theoretically, provide both high performance and low cost. We use the CUDA programming language to harness t...
We created a powerful computing platform based on video cards with the goal of accelerating the perf...
2021 Spring.Includes bibliographical references.RNA-RNA interaction (RRI) is important in processes ...
Mining the increasing amount of genomic data requires having very efficient tools. Increasing the ef...
International audienceMany bioinformatics studies require the analysis of RNA or DNA structures. Mor...
International audienceMany bioinformatics studies require the analysis of RNA or DNA structures. Pac...
The days when bioinformatics tools will be so reliable to become a standard aid in routine clinical ...
Background: One segment of a RNA sequence might be paired with another segment of the same RNA seque...
The use of Bioinformatic tools in routine clinical diagnostics is still facing a number of issues. T...
Bioinformatics require the analysis of large amounts of data. With the recent advent of next generat...
pages 199-210In this chapter, we present an implementation of the main kernel in the widely used RNA...
The idea of using a graphics processing unit (GPU) for more than simply graphic output purposes has ...
Over the past few years, DNA sequencing technology has been advancing at such a fast pace that compu...
Bioinformatics and computational biology are driven by growing volumes of data in biological systems...
We created a powerful computing platform based on video cards with the goal of accelerating the perf...
2021 Spring.Includes bibliographical references.RNA-RNA interaction (RRI) is important in processes ...
Mining the increasing amount of genomic data requires having very efficient tools. Increasing the ef...
International audienceMany bioinformatics studies require the analysis of RNA or DNA structures. Mor...
International audienceMany bioinformatics studies require the analysis of RNA or DNA structures. Pac...
The days when bioinformatics tools will be so reliable to become a standard aid in routine clinical ...
Background: One segment of a RNA sequence might be paired with another segment of the same RNA seque...
The use of Bioinformatic tools in routine clinical diagnostics is still facing a number of issues. T...
Bioinformatics require the analysis of large amounts of data. With the recent advent of next generat...
pages 199-210In this chapter, we present an implementation of the main kernel in the widely used RNA...
The idea of using a graphics processing unit (GPU) for more than simply graphic output purposes has ...
Over the past few years, DNA sequencing technology has been advancing at such a fast pace that compu...
Bioinformatics and computational biology are driven by growing volumes of data in biological systems...
We created a powerful computing platform based on video cards with the goal of accelerating the perf...
2021 Spring.Includes bibliographical references.RNA-RNA interaction (RRI) is important in processes ...
Mining the increasing amount of genomic data requires having very efficient tools. Increasing the ef...