Author :
Khan, A. ; Adye, T. ; Brew, C.A.J. ; Wilson, F. ; Bense, B. ; Cowles, R.D. ; Smith, D.A. ; Andreotti, D. ; Bozzi, C. ; Luppi, E. ; Veronesi, P. ; Barlow, R. ; Kelly, M.P. ; Werner, J.C. ; Forti, A. ; Grosdidier, G. ; Feltresi, E. ; Petzold, A. ; Lacker, H
Author_Institution :
Sch. of Eng. & Design, Brunel Univ., Uxbridge, UK
Abstract :
This paper discusses the use of e-science grid in providing computational resources for modern international high energy physics (HEP) experiments. We investigate the suitability of the current generation of grid software to provide the necessary resources to perform large-scale simulation of the experiment and analysis of data in the context of multinational collaboration.
Keywords :
Monte Carlo methods; grid computing; groupware; physics computing; Monte Carlo simulation; computational resources; distributed computing; e-science grid; grid applications; grid computing; grid software; international high energy physics experiments; multinational collaboration; Analytical models; Application software; Collaborative software; Computational modeling; Context modeling; Grid computing; Large-scale systems; Mesh generation; Physics computing; Software performance;
