A b s t r a c t The rapid advances in high-throughput biotechnologies such as DNA microarrays and mass spectrometry have generated vast amounts of data ranging from gene expression to proteomics data. The large size and complexity involved in analyzing such data demand a significant amount of computing power. High-performance computation (HPC) is an attractive and increasingly affordable approach to help meet this challenge. There is a spectrum of techniques that can be used to achieve computational speedup with varying degrees of impact in terms of how drastic a change is required to allow the software to run on an HPC platform. This paper describes a high-productivity/low-maintenance (HP/LM) approach to HPC that is based on establishing a...
Recent advances in DNA sequencing technology have opened new doors for scientists to use genomic dat...
Modern biology is largely shaped by the development of next generation sequencing (NGS) technology. ...
Langenkämper D, Jakobi T, Feld D, Jelonek L, Goesmann A, Nattkemper TW. Comparison of Acceleration T...
Bioinformatics and computational biology are driven by growing volumes of data in biological systems...
Next generation sequencing (NGS) has been a great success and is now a standard meth-od of research ...
High Performance Computing has been very useful to researchers in the Bioinformatics, Medical and re...
Next Generation Sequencing has brought genomic analysis within the range of a great number of labor...
NSilico is an Irish based SME that develops software for the life sciences sector, providing bioinfo...
This work regards the use of high performance computing (HPC) methods for a new bioinformatics chall...
We live in a big-data era and simple serial bioinformatic pipelines can’t efficiently handle huge in...
In the last decade, bioinformatics has become an indispensable branch of modern science research, ex...
Motivation: High performance computing (HPC) clusters play a pivotal role in large-scale bioinformat...
Despite having an ideal setup in their labs for wet work, researchers often lack the computational i...
Ever since high-throughput DNA sequencing became economically feasible, the amount of biological dat...
AbstractNowadays, High Performance Computing (HPC) systems commonly used in bioinformatics, such as ...
Recent advances in DNA sequencing technology have opened new doors for scientists to use genomic dat...
Modern biology is largely shaped by the development of next generation sequencing (NGS) technology. ...
Langenkämper D, Jakobi T, Feld D, Jelonek L, Goesmann A, Nattkemper TW. Comparison of Acceleration T...
Bioinformatics and computational biology are driven by growing volumes of data in biological systems...
Next generation sequencing (NGS) has been a great success and is now a standard meth-od of research ...
High Performance Computing has been very useful to researchers in the Bioinformatics, Medical and re...
Next Generation Sequencing has brought genomic analysis within the range of a great number of labor...
NSilico is an Irish based SME that develops software for the life sciences sector, providing bioinfo...
This work regards the use of high performance computing (HPC) methods for a new bioinformatics chall...
We live in a big-data era and simple serial bioinformatic pipelines can’t efficiently handle huge in...
In the last decade, bioinformatics has become an indispensable branch of modern science research, ex...
Motivation: High performance computing (HPC) clusters play a pivotal role in large-scale bioinformat...
Despite having an ideal setup in their labs for wet work, researchers often lack the computational i...
Ever since high-throughput DNA sequencing became economically feasible, the amount of biological dat...
AbstractNowadays, High Performance Computing (HPC) systems commonly used in bioinformatics, such as ...
Recent advances in DNA sequencing technology have opened new doors for scientists to use genomic dat...
Modern biology is largely shaped by the development of next generation sequencing (NGS) technology. ...
Langenkämper D, Jakobi T, Feld D, Jelonek L, Goesmann A, Nattkemper TW. Comparison of Acceleration T...