Algorithms for the ferromagnetic Potts model on expanders

Combinatorics, Probability and Computing Pub Date : 2024-04-05 DOI:10.1017/s0963548324000087

Charlie Carlson, Ewan Davies, Nicolas Fraiman, Alexandra Kolla, Aditya Potukuchi, Corrine Yap

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Abstract

We give algorithms for approximating the partition function of the ferromagnetic

$q$

-color Potts model on graphs of maximum degree

$d$

. Our primary contribution is a fully polynomial-time approximation scheme for

$d$

-regular graphs with an expansion condition at low temperatures (that is, bounded away from the order-disorder threshold). The expansion condition is much weaker than in previous works; for example, the expansion exhibited by the hypercube suffices. The main improvements come from a significantly sharper analysis of standard polymer models; we use extremal graph theory and applications of Karger’s algorithm to count cuts that may be of independent interest. It is #BIS-hard to approximate the partition function at low temperatures on bounded-degree graphs, so our algorithm can be seen as evidence that hard instances of #BIS are rare. We also obtain efficient algorithms in the Gibbs uniqueness region for bounded-degree graphs. While our high-temperature proof follows more standard polymer model analysis, our result holds in the largest-known range of parameters

$d$

and

$q$

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扩展器上铁磁波茨模型的算法

我们给出了在最大阶数为 $d$ 的图形上近似铁磁 $q$ - color Potts 模型的分割函数的算法。我们的主要贡献是针对 $d$ 不规则图的全多项式时间近似方案，该方案在低温（即远离阶差阈值）下具有扩展条件。扩展条件比以前的工作要弱得多；例如，超立方体表现出的扩展就足够了。主要的改进来自于对标准聚合物模型的更清晰分析；我们利用极值图理论和卡格算法的应用来计算可能具有独立意义的切口。在有界度图上，在低温下逼近分割函数是#BIS-困难的，因此我们的算法可以被视为#BIS-困难实例是罕见的证据。我们还获得了有界度图吉布斯唯一性区域的高效算法。虽然我们的高温证明遵循更标准的聚合物模型分析，但我们的结果在已知的最大参数 $d$ 和 $q$ 范围内成立。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Combinatorics, Probability and Computing

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