To be easily constructed, shared and maintained, complex in silico bioinformatics analysis are structured as workflows. Furthermore, the growth of computational power and storage demand from this domain, requires workflows to be efficiently executed. However, workflow performances usually rely on the ability of the designer to extract potential parallelism. But atomic bioinformatics tasks do not often exhibit direct parallelism which may appears later in the workflow design process. In this paper, we propose a Model-Driven Architecture approach for capturing the complete design process of bioinformatics workflows. More precisely, two workflow models are specified: the first one, called design model, graphically captures a low throughput pro...
ABSTRACT: BACKGROUND: In bioinformatics projects, scientific workflow systems are widely used to ma...
This document surveys the computational strategies followed to parallelize the most used software in...
Abstract public databases for genome analysis and annotation. The huge amount of data and time consu...
To be easily constructed, shared and maintained, complex in silico bioinformatics analysis are struc...
Design and share data analysis workflows. Application to bioinformatics intensivetreatmentsAs part o...
High-throughput technologies, such as next-generation sequencing, have turned molecular biology into...
As part of an Open Science initiative, we are particularly interested in the scientific Workflow Man...
Dans le cadre d'une démarche d'Open science, nous nous intéressons aux systèmes de gestion de workfl...
Background Reproducibility is one of the tenets of the scientific method. Scientific experiments ...
Background Reproducibility is one of the tenets of the scientific method. Scientific experiments oft...
Biological, clinical, and pharmacological research now often involves analyses of genomes, transcrip...
Advances in sequencing techniques have led to exponential growth in biological data, demanding the d...
Many bioinformatics tasks involve creating a computational pipeline from existing software component...
Background: Computational methods for problem solving need to interleave information access and algo...
myGrid assists bioinformaticians in designing and executing in silico experiments using the Grid’s r...
ABSTRACT: BACKGROUND: In bioinformatics projects, scientific workflow systems are widely used to ma...
This document surveys the computational strategies followed to parallelize the most used software in...
Abstract public databases for genome analysis and annotation. The huge amount of data and time consu...
To be easily constructed, shared and maintained, complex in silico bioinformatics analysis are struc...
Design and share data analysis workflows. Application to bioinformatics intensivetreatmentsAs part o...
High-throughput technologies, such as next-generation sequencing, have turned molecular biology into...
As part of an Open Science initiative, we are particularly interested in the scientific Workflow Man...
Dans le cadre d'une démarche d'Open science, nous nous intéressons aux systèmes de gestion de workfl...
Background Reproducibility is one of the tenets of the scientific method. Scientific experiments ...
Background Reproducibility is one of the tenets of the scientific method. Scientific experiments oft...
Biological, clinical, and pharmacological research now often involves analyses of genomes, transcrip...
Advances in sequencing techniques have led to exponential growth in biological data, demanding the d...
Many bioinformatics tasks involve creating a computational pipeline from existing software component...
Background: Computational methods for problem solving need to interleave information access and algo...
myGrid assists bioinformaticians in designing and executing in silico experiments using the Grid’s r...
ABSTRACT: BACKGROUND: In bioinformatics projects, scientific workflow systems are widely used to ma...
This document surveys the computational strategies followed to parallelize the most used software in...
Abstract public databases for genome analysis and annotation. The huge amount of data and time consu...