CERN Accelerating science

Article
Title Distributed Geant4 simulation in medical and space science applications using DIANE framework and the GRID
Author(s) Moscicki, J T ; Guatelli, S ; Mantero, A ; Pia, M G
Affiliation (CERN)
Publication 2003
In: Nucl. Phys. B, Proc. Suppl. 125 (2003) 327-331
In: 8th Topical Seminar on Innovative Particle and Radiation Detectors, Sienna, Italy, 21 - 24 Oct 2002, pp.327-331 (v.125)
DOI 10.1016/S0920-5632(03)02267-9
Subject category Computing and Computers
Abstract Distributed computing is one of the most important trends in IT which has recently gained significance for large-scale scientific applications. Distributed analysis environment (DIANE) is a R&D study, focusing on semiinteractive parallel and remote data analysis and simulation, which has been conducted at CERN. DIANE provides necessary software infrastructure for parallel scientific applications in the master-worker model. Advanced error recovery policies, automatic book-keeping of distributed jobs and on-line monitoring and control tools are provided. DIANE makes a transparent use of a number of different middleware implementations such as load balancing service (LSF, PBS, GRID Resource Broker, Condor) and security service (GSI, Kerberos, openssh). A number of distributed Geant 4 simulations have been deployed and tested, ranging from interactive radiotherapy treatment planning using dedicated clusters in hospitals, to globally-distributed simulations of astrophysics experiments using the European data grid middleware. This paper describes the general concepts behind the DIANE framework and results of the first tests with distributed Geant 4 simulations.



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