Title :
GATE simulations on multicomputer architectures
Author :
Vega-Acevedo, Nicolas ; Lanas, Ismael ; Rannou, Fernando R.
Author_Institution :
Equifax Inf. Technol. Inc., Chile
fDate :
Oct. 24 2009-Nov. 1 2009
Abstract :
GATE/Geant4 simulations are computationally demanding, requiring thousands of processor hours to produce realistic results. One of the difficulties in producing a truly parallel solution is that in PET simulations, events are NOT independent of each other completely. Photons that originate in a given time window must be simulated in the same processor so that they can be fed to the same coincidence processing chain. Otherwise, a centralized coincidence processing approach would incur in excessive communication overhead. The cluster solution for GATE was a first solution to tackle this problem, splitting the simulation in very large windows. Here we propose a truly parallel computational model that can handle singles and coincidences in a natural way, producing simulation results equivalent to its sequential counterpart. We show that the MPI implementation of this model speeds up almost linearly with the number of processors.
Keywords :
Monte Carlo methods; application program interfaces; positron emission tomography; simulation; GATE simulations; MPI implementation; Monte Carlo simulations; PET simulations; cluster solution; coincidence processing chain; excessive communication overhead; multicomputer architectures; parallel computational model; parallel solution; photons; Application software; Computational modeling; Concurrent computing; Discrete event simulation; Medical simulation; Nuclear and plasma sciences; Parallel processing; Particle tracking; Positron emission tomography; Single photon emission computed tomography; GATE; Monte Carlo; Parallel computing;
Conference_Titel :
Nuclear Science Symposium Conference Record (NSS/MIC), 2009 IEEE
Conference_Location :
Orlando, FL
Print_ISBN :
978-1-4244-3961-4
Electronic_ISBN :
1095-7863
DOI :
10.1109/NSSMIC.2009.5402442
