English

Parallel Tempered Metadynamics

High Energy Physics - Lattice 2025-03-28 v2
Authors: Timo Eichhorn , Gianluca Fuwa , Christian Hoelbling , Lukas Varnhorst
View on arXiv PDF DOI

Abstract

When approaching the continuum limit in lattice QCD or other theories in a setup with topological sectors, conventional update algorithms experience a particularly severe form of critical slowing down that is caused by high action barriers between the sectors. The qualitative scaling behavior of this critical slowing down appears to be universal across different update algorithms and (gauge) actions. We demonstrate that a combination of Metadynamics with parallel tempering, along with other modifications, can significantly reduce autocorrelation times while avoiding the need for reweighting. We also discuss strategies to extend the methods to QCD simulations with dynamical fermions, and present first results for Nf=2N_f = 2 simulations at unphysical pion masses.

Keywords

quantum quench dynamics time-delayed feedback control lattice qcd

Cite

@article{arxiv.2503.09747,
  title  = {Parallel Tempered Metadynamics},
  author = {Timo Eichhorn and Gianluca Fuwa and Christian Hoelbling and Lukas Varnhorst},
  journal= {arXiv preprint arXiv:2503.09747},
  year   = {2025}
}

Comments

21 pages, 8 figures. Proceedings of the 41st International Symposium on Lattice Field Theory (LATTICE2024), 28 July - 3 August 2024, Liverpool, UK v2: Matches PoS version

Related papers

View all related →
High Energy Physics - Lattice · Physics
Parallel Tempered Metadynamics: Overcoming potential barriers without surfing or tunneling
Timo Eichhorn, Gianluca Fuwa, Christian Hoelbling, Lukas Varnhorst
2024-06-12
High Energy Physics - Lattice · Physics
Full QCD with milder topological freezing
Claudio Bonanno, Giuseppe Clemente, Massimo D'Elia, Lorenzo Maio +1
2024-09-04
High Energy Physics - Lattice · Physics
Enhanced Sampling Techniques for Lattice Gauge Theory
Timo Eichhorn, Gianluca Fuwa, Christian Hoelbling, Lukas Varnhorst
2026-04-07
High Energy Physics - Lattice · Physics
Parallel Tempering in Lattice QCD with O(a)-Improved Wilson Fermions
Balint Joo, Alan C Irving, James C. Sexton, Brian Pendleton +3
2009-10-31
Soft Condensed Matter · Physics
Equilibration times in numerical simulation of structural glasses: Comparing parallel tempering and conventional molecular dynamics
Cristiano De Michele, Francesco Sciortino
2009-11-07
High Energy Physics - Lattice · Physics
Parallel tempering in full QCD with Wilson fermions
E. -M. Ilgenfritz, W. Kerler, M. Muller-Preussker, H. Stuben
2009-11-07
High Energy Physics - Lattice · Physics
Topology changing update algorithms for SU(3) gauge theory
Timo Eichhorn, Christian Hoelbling, Philip Rouenhoff, Lukas Varnhorst
2025-03-14
High Energy Physics - Lattice · Physics
Comparison of topology changing update algorithms
Timo Eichhorn, Christian Hoelbling
2025-03-14
High Energy Physics - Lattice · Physics
New simulation strategies for lattice gauge theory
Michael G. Endres
2016-12-07
High Energy Physics - Lattice · Physics
Metadynamics Surfing on Topology Barriers in the Schwinger Model
Christian Hoelbling, Timo Eichhorn, Philip Rouenhoff, Lukas Varnhorst
2022-12-23
High Energy Physics - Lattice · Physics
Towards glueball masses of large-$N~\mathrm{SU}(N)$ Yang-Mills theories without topological freezing via parallel tempering on boundary conditions
Claudio Bonanno, Massimo D'Elia, Biagio Lucini, Davide Vadacchino
2022-10-17
Chemical Physics · Physics
Parallel Tempering Algorithm for Conformational Studies of Biological Molecules
Ulrich H. E. Hansmann
2009-10-30
High Energy Physics - Lattice · Physics
Tempered Fermions in the Hybrid Monte Carlo Algorithm
G. Boyd
2009-10-30
High Energy Physics - Lattice · Physics
Precision study of the continuum SU(3) Yang-Mills theory: how to use parallel tempering to improve on supercritical slowing down for first order phase transitions
S. Borsanyi, Z. Fodor, D. A. Godzieba, R. Kara +2
2022-04-19
High Energy Physics - Lattice · Physics
Fighting topological freezing in the two-dimensional CP$^{N-1}$ model
Martin Hasenbusch
2018-04-18
High Energy Physics - Lattice · Physics
Investigating the critical slowing down of QCD simulations
Stefan Schaefer, Rainer Sommer, Francesco Virotta
2010-11-05
High Energy Physics - Lattice · Physics
Fighting topological freezing in the two-dimensional CP$^{N-1}$ model
Martin Hasenbusch
2017-09-22
High Energy Physics - Lattice · Physics
Fourier Acceleration in a Linear Sigma Model with Spontaneous Symmetry Breaking
Cameron Cianci, Luchang Jin, Joshua Swaim
2025-04-25
High Energy Physics - Lattice · Physics
Autocorrelations in Hybrid Monte Carlo Simulations
Stefan Schaefer, Francesco Virotta
2011-07-15
Statistical Mechanics · Physics
Parallel-tempering cluster algorithm for computer simulations of critical phenomena
Elmar Bittner, Wolfhard Janke
2015-05-28
Discrete Mathematics · Computer Science
Simulated Tempering and Swapping on Mean-Field Models
Nayantara Bhatnagar, Dana Randall
2016-07-20
Statistical Mechanics · Physics
Kinetic Ising Models with Self-interaction: Sequential and Parallel Updating
Vahini Reddy Nareddy, Jonathan Machta
2020-01-22
High Energy Physics - Lattice · Physics
Parallel tempering and decorrelation of topological charge in full QCD
E. -M. Ilgenfritz, W. Kerler, M. Müller-Preussker, H. Stüben
2007-05-23
Numerical Analysis · Mathematics
A Generalized Parallel Replica Dynamics
Andrew Binder, Tony Lelièvre, Gideon Simpson
2015-05-20
High Energy Physics - Lattice · Physics
Modified SO(3) Lattice Gauge Theory at non zero T with Parallel Tempering: Monopole and Vortex Condensation
G. Burgio, M. Fuhrmann, W. Kerler, M. Muller-Preussker
2008-11-26