Title :
A Cyclic Force Decomposition Algorithm for Parallelising Three-Body Interactions in Molecular Dynamics Simulations
Author :
Li, Jianhui ; Zhou, Zhongwu ; Sadus, Richard J.
Author_Institution :
Centre for Molecular Simulation, Swinburne Univ. of Technol., Hawthorn, Vic.
Abstract :
A cyclic force decomposition algorithm is examined for parallelising three body interactions. The algorithm is based on the decomposition of a 3D force matrix into slices of 2D force matrixes in cyclic task assignments. The proposed decomposition algorithm is implemented using MPI and tested in computational experiments of MD simulations. The performance of the decomposition method is studied in terms of load balance, achieved speedup and parallel efficiency. Theoretical analysis of effective triplets is proposed and conducted by which load balance status can be predicted and compared with benchmark measurements. Reasonably good overall performance is achieved with the proposed algorithm. Both theoretical analysis and computation experiments demonstrate that the load balance is a key factor that impacts the parallel efficiency of the system examined in this study
Keywords :
digital simulation; matrix decomposition; molecular dynamics method; parallel algorithms; physics computing; resource allocation; 2D force matrix; 3D force matrix decomposition; MPI; cyclic force decomposition algorithm; cyclic task assignment; load balancing; molecular dynamics simulation; three-body interaction parallelisation; Australia; Biology computing; Communications technology; Computational modeling; Computer networks; Concurrent computing; Distributed computing; Matrix decomposition; Solid modeling; Testing; Parallel computation; force decomposition; load balance; three body interactions;
Conference_Titel :
Computer and Computational Sciences, 2006. IMSCCS '06. First International Multi-Symposiums on
Conference_Location :
Hanzhou, Zhejiang
Print_ISBN :
0-7695-2581-4
DOI :
10.1109/IMSCCS.2006.3
