Add to ORKGMC-PSC (Multi-Criteria Protein Structure Comparison) is one of the GCAs (Grand Challenge Applications) in the field of structural proteomics. The solution of the MC-PSC grand challenge requires the use of distributed algorithms, architectures and environments. This paper is aimed at the analysis of the scalability of our newly developed distributed algorithm for MC-PSC in the grid environment. The scalability in the grid environment indicates the capacity of the distributed algorithm to effectively utilize an increasing number of processors across multiple sites. The results of the experiments conducted on the UK's NGS (National Grid Service) infrastructure are reported in terms of speedup, efficiency and cross-site communication overhead
Abstract. The potential for Grid technologies in applied bioinformatics is largely unexplored. We ha...
CHARMM is a popular molecular dynamics code for computational biology. For many CHARMM applications ...
Distributed computing is a potentially very powerful approach for accessing large amounts of computa...
Protein Structure Comparison (PSC) is at the core of many important structural biology problems. PSC...
This paper concentrates on the grid implementation of software tools for the comparison of protein s...
www.cs.nott.ac.uk/~{aas,dxb,nxk} Abstract. Grid and distributed public computing schemes has become ...
International audienceA comparative study of parallel metaheuristics executed in grid environments i...
Abstract This paper describes a distributed implementation of PROuST, a method for protein structur...
In this paper we present a scenario for the grid immersion of the procedures that solve the protein ...
This paper describes a major restructuring of PROuST, a method for protein structure comparison, for...
International audienceThis paper introduces the Godson-T manycore architecture and demonstrates the ...
Protein Structure Comparison (PSC) is a well developed field of computational proteomics with active...
This paper introduces the Godson-T manycore architecture and demonstrates the efficiency of its sync...
Protein Structure Comparison (PSC) is a well developed field of computational proteomics with active...
This work handles the optimization of the grid computing performances for a data-intensive and high ...
Abstract. The potential for Grid technologies in applied bioinformatics is largely unexplored. We ha...
CHARMM is a popular molecular dynamics code for computational biology. For many CHARMM applications ...
Distributed computing is a potentially very powerful approach for accessing large amounts of computa...
Protein Structure Comparison (PSC) is at the core of many important structural biology problems. PSC...
This paper concentrates on the grid implementation of software tools for the comparison of protein s...
www.cs.nott.ac.uk/~{aas,dxb,nxk} Abstract. Grid and distributed public computing schemes has become ...
International audienceA comparative study of parallel metaheuristics executed in grid environments i...
Abstract This paper describes a distributed implementation of PROuST, a method for protein structur...
In this paper we present a scenario for the grid immersion of the procedures that solve the protein ...
This paper describes a major restructuring of PROuST, a method for protein structure comparison, for...
International audienceThis paper introduces the Godson-T manycore architecture and demonstrates the ...
Protein Structure Comparison (PSC) is a well developed field of computational proteomics with active...
This paper introduces the Godson-T manycore architecture and demonstrates the efficiency of its sync...
Protein Structure Comparison (PSC) is a well developed field of computational proteomics with active...
This work handles the optimization of the grid computing performances for a data-intensive and high ...
Abstract. The potential for Grid technologies in applied bioinformatics is largely unexplored. We ha...
CHARMM is a popular molecular dynamics code for computational biology. For many CHARMM applications ...
Distributed computing is a potentially very powerful approach for accessing large amounts of computa...