Title :
A speed-up algorithm in Monte Carlo simulation for fault tree analysis with GPU computing
Author :
Aghassi, Farrokh ; Aghassi, Hadi ; Sheykhlar, Zahra
Author_Institution :
Sch. of Eng., Razi Univ., Kermanshah, Iran
Abstract :
The reliability analysis of critical systems could be performed with fault tree analysis. One of the approaches used for fault tree analysis is Monte Carlo simulation. The purpose of this paper is therefore to show an algorithm to speed-up Monte Carlo simulation for analyzing fault tree with parallel computing in GPU. To this end, we use time-to-failure tree to model fault tree with Compute Unified Device Architecture (CUDA) which is used to accelerate the execution of loops with many repetitions. Furthermore, we also use this technique to accelerate Monte Carlo simulations. In addition, we visualize fault tree so that the user is able to generate fault tree in detail using our developed software and can execute it. The computational outcomes validate the effectiveness of the suggested approach, as we approached about 310 times speed-up in large fault trees.
Keywords :
Monte Carlo methods; fault trees; graphics processing units; parallel processing; safety-critical software; software fault tolerance; CUDA; GPU computing; Monte Carlo simulation; compute unified device architecture; critical system reliability analysis; fault tree analysis; parallel computing; speed-up algorithm; time-to-failure tree; Algorithm design and analysis; Computational modeling; Computer languages; Fault trees; Graphics processing unit; Logic gates; Parallel processing; CUDA; Fault tree; GPU computation; Monte Carlo simulation; parallel programming; time-to-failure;
Conference_Titel :
Soft Computing and Pattern Recognition (SoCPaR), 2011 International Conference of
Conference_Location :
Dalian
Print_ISBN :
978-1-4577-1195-4
DOI :
10.1109/SoCPaR.2011.6089289
