Paper Info
Title
Performance of a parallel astrophysical n-body solver on pan-european computational grids
Abstract
We present performance results obtained by running a direct gravitational N-body code for astrophysical simulations across the Dutch DAS-2 and the pan-European CrossGrid computational grids. We find that the performance on large grids improves as the size of the N-body system increases because the computation to communication ratio becomes higher and a better load balance can be achieved. Communication among nodes residing in different locations across Europe becomes more evident as the number of locations increases. Nevertheless, contrary to our expectations, we find that the performance decreases only by about a factor three for a large simulation. We conclude that highly distributed computational Grid infrastructures can be used efficiently for simulating large gravitational N-body systems.
Year
DOI
Venue
2005
10.1007/11508380_25
EGC
Keywords
Field
DocType
astrophysical simulation,pan-european computational grid,present performance result,parallel astrophysical n-body solver,n-body system increase,large simulation,direct gravitational n-body code,communication ratio,large gravitational n-body system,computational grid infrastructure,large grid,locations increase,load balance,distributed computing
Parallel algorithm,Computer science,Load balancing (computing),Algorithm,Computational science,Solver,Gravitation,Dynamical system,Grid,Distributed computing,Computation
Conference
Volume
ISSN
ISBN
3470
0302-9743
3-540-26918-5
Citations 
PageRank 
References 
1
0.37
5
Authors
3
Name
Order
Citations
PageRank
Alfredo Tirado-Ramos111014.38
Alessia Gualandris2232.83
Simon Portegies Zwart319223.58