English

Worm algorithms for classical statistical models

Condensed Matter 2009-11-07 v1
Authors: Nikolay Prokof'ev , Boris Svistunov
View on arXiv PDF DOI

Abstract

We show that high-temperature expansions may serve as a basis for the novel approach to efficient Monte Carlo simulations. "Worm" algorithms utilize the idea of updating closed path configurations (produced by high-temperature expansions) through the motion of end points of a disconnected path. An amazing result is that local, Metropolis-type schemes may have dynamical critical exponents close to zero (i.e., their efficiency is comparable to the best cluster methods). We demonstrate this by calculating finite size scaling of the autocorrelation time for various (six) universality classes.

Keywords

monte carlo algorithms statistical algorithms

Cite

@article{arxiv.cond-mat/0103146,
  title  = {Worm algorithms for classical statistical models},
  author = {Nikolay Prokof'ev and Boris Svistunov},
  journal= {arXiv preprint arXiv:cond-mat/0103146},
  year   = {2009}
}

Comments

4 pages, latex, 2 figures

Related papers

View all related →
Strongly Correlated Electrons · Physics
Worm Improved Estimators in Continuous-time Quantum Monte Carlo
Patrik Gunacker, Markus Wallerberger, Tin Ribic, Andreas Hausoel +2
2016-10-07
Statistical Mechanics · Physics
Worm Algorithm for Continuous-space Path Integral Monte Carlo Simulations
M. Boninsegni, N. Prokof'ev, B. Svistunov
2009-11-11
Computational Physics · Physics
Worm Algorithm and Diagrammatic Monte Carlo: A New Approach to Continuous-Space Path Integral Monte Carlo Simulations
M. Boninsegni, N. V. Prokof'ev, B. V. Svistunov
2009-11-11
Statistical Mechanics · Physics
Efficient and scalable Path Integral Monte Carlo Simulations with worm-type updates for Bose-Hubbard and XXZ models
Nicolas Sadoune, Lode Pollet
2022-10-03
Statistical Mechanics · Physics
Worm-algorithm-type Simulation of Quantum Transverse-Field Ising Model
Chun-Jiong Huang, Longxiang Liu, Yi Jiang, Youjin Deng
2020-09-07
Statistical Mechanics · Physics
Engineering Local optimality in Quantum Monte Carlo algorithms
Lode Pollet, Kris Van Houcke, Stefan M. A. Rombouts
2007-07-28
Statistical Mechanics · Physics
Geometric allocation approach to accelerating directed worm algorithm
Hidemaro Suwa
2021-01-19
Statistical Mechanics · Physics
An introduction to Monte Carlo methods
Jean-Charles Walter, Gerard Barkema
2015-06-19
Condensed Matter · Physics
Loop algorithms for quantum simulations of fermion models on lattices
N. Kawashima, J. E. Gubernatis, H. G. Evertz
2007-05-23
Strongly Correlated Electrons · Physics
Cluster Monte Carlo Algorithm for the Quantum Rotor Model
Fabien Alet, Erik S. Sorensen
2009-11-07
Statistical Mechanics · Physics
Dynamic critical behavior of the worm algorithm for the Ising model
Youjin Deng, Timothy M. Garoni, Alan D. Sokal
2008-11-26
Statistical Mechanics · Physics
Faster Monte Carlo Simulations at Low Temperatures. The Waiting Time Method
Jesper Dall, Paolo Sibani
2009-11-07
Statistical Mechanics · Physics
Critical Loop Gases and the Worm Algorithm
Wolfhard Janke, Thomas Neuhaus, Adriaan M. J. Schakel
2010-02-10
Strongly Correlated Electrons · Physics
Directed geometrical worm algorithm applied to the quantum rotor model
Fabien Alet, Erik S. Sorensen
2009-11-10
Statistical Mechanics · Physics
Quantum Monte Carlo simulation in the canonical ensemble at finite temperature
Kris Van Houcke, Stefan Rombouts, Lode Pollet
2009-11-11
Statistical Mechanics · Physics
Parallelized Quantum Monte Carlo Algorithm with Nonlocal Worm Updates
Akiko Masaki-Kato, Takafumi Suzuki, Kenji Harada, Synge Todo +1
2014-04-14
Statistical Mechanics · Physics
Probability-Changing Cluster Algorithm for Potts Models
Yusuke Tomita, Yutaka Okabe
2009-10-31
High Energy Physics - Lattice · Physics
Worm algorithm for the O(2N) Gross-Neveu model
Vidushi Maillart, Urs Wenger
2015-03-19
Methodology · Statistics
Optimal scaling of random-walk Metropolis algorithms using Bayesian large-sample asymptotics
Sebastian M Schmon, Philippe Gagnon
2022-02-16
Computation · Statistics
Accelerating MCMC Algorithms
Christian P. Robert, Victor Elvira, Nick Tawn, Changye Wu
2018-04-12
Statistical Mechanics · Physics
Extended Scaling in High Dimensions
Bertrand Berche, Christophe Chatelain, Chania Dhall, Ralph Kenna +2
2009-11-13
Computational Physics · Physics
Efficient Monte Carlo methods for simulating diffusion-reaction processes in complex systems
Denis Grebenkov
2013-05-01
Quantum Gases · Physics
Monte Carlo study of a Fermi gas with infinite scattering length
Olga Goulko, Matthew Wingate
2010-11-05
Strongly Correlated Electrons · Physics
Self-adapting method for the localization of quantum critical points using Quantum Monte Carlo techniques
F. Alet, E. Sorensen
2009-11-07
High Energy Physics - Lattice · Physics
Eigenvalue-cluster Algorithm for Matrix Monte Carlo
Samuel Kováčik, Matej Hrmo
2026-05-29