Overcoming strong metastabilities with the LLR method

Biagio Lucini; William Fall; Kurt Langfeld

doi:10.22323/1.256.0275

Overcoming strong metastabilities with the LLR method

Biagio Lucini, William Fall, Kurt Langfeld

Research output: Chapter in Book / Conference Paper › Conference Paper › peer-review

3 Citations (Scopus)

2 Downloads (Pure)

Abstract

n previous work, it has been shown that the recently proposed LLR method is very efficient at overcoming strong metastabilities that arise near first-order phase transition points. Here we present a systematic study of the performance of the algorithm near (pseudo-)critical points for q-state Potts models with q as large as 20, in two and three dimensions. In particular, we shall focus our study on the ergodicity of the replica exchange step and the underlying physical mechanism. When compared with both analytical and numerical results present in the literature, our determinations of thermodynamic observables (including the order-disorder interface tension at criticality) show an impressive degree of relative accuracy (up to 2.5Ã—10âˆ’6), which confirms the reliability and the efficiency of the proposed approach.

Original language	English
Title of host publication	Proceedings of Science: 34th Annual International Symposium on Lattice Field Theory
Place of Publication	Italy
Publisher	Sissa Medialab Srl
Number of pages	7
DOIs	https://doi.org/10.22323/1.256.0275
Publication status	Published - 2016
Externally published	Yes
Event	International Symposium on Lattice Field Theory - University of Southampton, Southampton, United Kingdom Duration: 24 Jul 2016 → 30 Jul 2016 Conference number: 34th

Publication series

Name	Proceedings of Science
Volume	256

Conference

Conference	International Symposium on Lattice Field Theory
Country/Territory	United Kingdom
City	Southampton
Period	24/07/16 → 30/07/16

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10.22323/1.256.0275Licence: CC BY-NC-ND

full textFinal published version, 1.35 MBLicence: CC BY-NC-ND

Cite this

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title = "Overcoming strong metastabilities with the LLR method",

abstract = "n previous work, it has been shown that the recently proposed LLR method is very efficient at overcoming strong metastabilities that arise near first-order phase transition points. Here we present a systematic study of the performance of the algorithm near (pseudo-)critical points for q-state Potts models with q as large as 20, in two and three dimensions. In particular, we shall focus our study on the ergodicity of the replica exchange step and the underlying physical mechanism. When compared with both analytical and numerical results present in the literature, our determinations of thermodynamic observables (including the order-disorder interface tension at criticality) show an impressive degree of relative accuracy (up to 2.5{\~A}—10{\^a}ˆ{\textquoteright}6), which confirms the reliability and the efficiency of the proposed approach.",

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note = " International Symposium on Lattice Field Theory ; Conference date: 24-07-2016 Through 30-07-2016",

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AU - Lucini, Biagio

AU - Fall, William

AU - Langfeld, Kurt

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PY - 2016

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N2 - n previous work, it has been shown that the recently proposed LLR method is very efficient at overcoming strong metastabilities that arise near first-order phase transition points. Here we present a systematic study of the performance of the algorithm near (pseudo-)critical points for q-state Potts models with q as large as 20, in two and three dimensions. In particular, we shall focus our study on the ergodicity of the replica exchange step and the underlying physical mechanism. When compared with both analytical and numerical results present in the literature, our determinations of thermodynamic observables (including the order-disorder interface tension at criticality) show an impressive degree of relative accuracy (up to 2.5Ã—10âˆ’6), which confirms the reliability and the efficiency of the proposed approach.

AB - n previous work, it has been shown that the recently proposed LLR method is very efficient at overcoming strong metastabilities that arise near first-order phase transition points. Here we present a systematic study of the performance of the algorithm near (pseudo-)critical points for q-state Potts models with q as large as 20, in two and three dimensions. In particular, we shall focus our study on the ergodicity of the replica exchange step and the underlying physical mechanism. When compared with both analytical and numerical results present in the literature, our determinations of thermodynamic observables (including the order-disorder interface tension at criticality) show an impressive degree of relative accuracy (up to 2.5Ã—10âˆ’6), which confirms the reliability and the efficiency of the proposed approach.

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DO - 10.22323/1.256.0275

M3 - Conference Paper

T3 - Proceedings of Science

BT - Proceedings of Science: 34th Annual International Symposium on Lattice Field Theory

PB - Sissa Medialab Srl

CY - Italy

T2 - International Symposium on Lattice Field Theory

Y2 - 24 July 2016 through 30 July 2016

ER -

Overcoming strong metastabilities with the LLR method

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