通过谱独立超越有界度图快速采样

IF 0.9 3区计算机科学 Q3 COMPUTER SCIENCE, THEORY & METHODS

ACM Transactions on Algorithms Pub Date : 2023-11-09 DOI:10.1145/3631354

Ivona Bezáková, Andreas Galanis, Leslie Ann Goldberg, Daniel Štefankovič

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引用次数: 0

摘要

谱无关性是最近发展的一个框架，用于获得经典格劳伯动力学的收敛时间的明确界限。这个新框架在有界度图上产生了最优的O (n log n)采样算法，用于整个所谓的唯一性体系中的一大类问题，包括采样独立集、匹配和ising模型配置等问题。我们的主要贡献是放宽了迄今为止在建立和应用谱独立性方面很重要的有界度假设。先前避免度界的方法依赖于使用L p范数来分析有界连接常数图上的收缩(Sinclair, Srivastava, Yin;foc 13)。L - p模的非线性是将这些结果应用于有界谱无关的一个障碍。我们的解决方案是通过对用于分析收缩的递归的子树进行摊销来递归地捕获lp分析。我们的方法推广了以前只适用于有界度图的分析。作为我们技术的主要应用，我们考虑随机图G (n, d / n)，其中先前已知的算法运行时间为n O (log d)或仅适用于大d。我们显著改进了这些算法边界，并开发了基于Glauber动力学的快速近线性算法，该算法适用于整个唯一性体系中的所有常数d。

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Fast sampling via spectral independence beyond bounded-degree graphs

Spectral independence is a recently-developed framework for obtaining sharp bounds on the convergence time of the classical Glauber dynamics. This new framework has yielded optimal O ( n log n ) sampling algorithms on bounded-degree graphs for a large class of problems throughout the so-called uniqueness regime, including, for example, the problems of sampling independent sets, matchings, and Ising-model configurations. Our main contribution is to relax the bounded-degree assumption that has so far been important in establishing and applying spectral independence. Previous methods for avoiding degree bounds rely on using L p -norms to analyse contraction on graphs with bounded connective constant (Sinclair, Srivastava, Yin; FOCS’13). The non-linearity of L p -norms is an obstacle to applying these results to bound spectral independence. Our solution is to capture the L p -analysis recursively by amortising over the subtrees of the recurrence used to analyse contraction. Our method generalises previous analyses that applied only to bounded-degree graphs. As a main application of our techniques, we consider the random graph G ( n , d / n ), where the previously known algorithms run in time n O (log d ) or applied only to large d . We refine these algorithmic bounds significantly, and develop fast nearly linear algorithms based on Glauber dynamics that apply to all constant d , throughout the uniqueness regime.

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来源期刊

ACM Transactions on Algorithms COMPUTER SCIENCE, THEORY & METHODS-MATHEMATICS, APPLIED

CiteScore

3.30

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： ACM Transactions on Algorithms welcomes submissions of original research of the highest quality dealing with algorithms that are inherently discrete and finite, and having mathematical content in a natural way, either in the objective or in the analysis. Most welcome are new algorithms and data structures, new and improved analyses, and complexity results. Specific areas of computation covered by the journal include combinatorial searches and objects; counting; discrete optimization and approximation; randomization and quantum computation; parallel and distributed computation; algorithms for graphs, geometry, arithmetic, number theory, strings; on-line analysis; cryptography; coding; data compression; learning algorithms; methods of algorithmic analysis; discrete algorithms for application areas such as biology, economics, game theory, communication, computer systems and architecture, hardware design, scientific computing