论文信息 - Self-organized criticality in simulated correlated systems

Self-organized criticality in simulated correlated systems

In this paper we study the influence of spatio-temporal correlations on the dynamic runtime behavior of the optimistic parallel Time Warp simulation method. By means of Ising spin simulation, we show experimentally that the probability distribution of the number of rolled back events behaves as a power-law distribution over a large range of sub-critical Ising temperatures and decays exponentially for super-critical Ising temperatures. The experimental results indicate that for critical Ising temperatures, where long-range correlations occur, the computational complexity of Time Warp and physical complexity of the Ising spin model are entangled and contribute both to the runtime behavior in a nonlinear way.

[1] B A Huberman,et al. Evolutionary games and computer simulations. , 1993, Proceedings of the National Academy of Sciences of the United States of America.

[2] Peter M. A. Sloot,et al. Time Warped Automata: Parallel Discrete Event Simulation of Asynchronous CA's , 1999 .

[3] David R. Jefferson,et al. Virtual time , 1985, ICPP.

[4] Zoltán Toroczkai,et al. From Massively Parallel Algorithms and Fluctuating Time Horizons to Non-equilibrium Surface Growth , 2000, Physical review letters.

[5] Tang,et al. Self-organized criticality. , 1988, Physical review. A, General physics.

[6] Peter M. A. Sloot,et al. Application of time warp to parallel simulations with asynchronous cellular automata , 1993 .

[7] B. J. Overeinder,et al. Distributed Event-driven Simulation - Scheduling Strategies and Resource Management , 2000 .

[8] H. Stanley,et al. Scaling, Universality, and Renormalization: Three Pillars of Modern Critical Phenomena , 1999 .

[9] Boris D. Lubachevsky,et al. Efficient parallel simulations of dynamic Ising spin systems , 1988 .