Emilio Flores-Sola, Martin Weigel, Ralph Kenna, Bertrand Berche
Published 2016-11-17Version 1
Many spin systems affected by critical slowing down can be efficiently simulated using cluster algorithms. Where such systems have long-range interactions, suitable formulations can additionally bring down the computational effort for each update from O($N^2$) to O($N\ln N$) or even O($N$), thus promising an even more dramatic computational speed-up. Here, we review the available algorithms and propose a new and particularly efficient single-cluster variant. The efficiency and dynamical scaling of the available algorithms are investigated for the Ising model with power-law decaying interactions.
Comments: submitted to Eur. Phys. J Spec. Topics
Cluster Monte Carlo: Scaling of Systematic Errors in the 2D Ising Model
Ensemble inequivalence in systems with long-range interactions
Comment on "Entropy of Classical Systems with Long-Range Interactions" by T.M. Rocha Filho et al, PRL 95, 190601 (2005)
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