Flip Dynamics for Sampling Colorings: Improving $(11/6-ε)$ Using a Simple Metric

arXiv - CS - Discrete Mathematics Pub Date : 2024-07-05 DOI:arxiv-2407.04870

Charlie Carlson, Eric Vigoda

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Abstract

We present improved bounds for randomly sampling $k$-colorings of graphs with maximum degree $\Delta$; our results hold without any further assumptions on the graph. The Glauber dynamics is a simple single-site update Markov chain. Jerrum (1995) proved an optimal $O(n\log{n})$ mixing time bound for Glauber dynamics whenever $k>2\Delta$ where $\Delta$ is the maximum degree of the input graph. This bound was improved by Vigoda (1999) to $k > (11/6)\Delta$ using a "flip" dynamics which recolors (small) maximal 2-colored components in each step. Vigoda's result was the best known for general graphs for 20 years until Chen et al. (2019) established optimal mixing of the flip dynamics for $k > (11/6 - \epsilon ) \Delta$ where $\epsilon \approx 10^{-5}$. We present the first substantial improvement over these results. We prove an optimal mixing time bound of $O(n\log{n})$ for the flip dynamics when $k \geq 1.809 \Delta$. This yields, through recent spectral independence results, an optimal $O(n\log{n})$ mixing time for the Glauber dynamics for the same range of $k/\Delta$ when $\Delta=O(1)$. Our proof utilizes path coupling with a simple weighted Hamming distance for "unblocked" neighbors.

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采样着色的翻转动力学：使用简单度量改进 $(11/6-ε)$

我们提出了最大度数为 $\Delta$ 的图中随机采样 $k$ 着色的改进边界；我们的结果无需对图做任何进一步假设即可成立。Jerrum（1995）证明了当 $k>2\Delta$ 时，Glauber 动力学的最优 $O(n\log{n})$ 混合时间约束，其中 $\Delta$ 是输入图的最大度。Vigoda (1999)使用 "翻转 "动力学将这一约束改进为 $k > (11/6)\Delta$ ，该动力学在每一步中重新对（小）最大 2 色成分进行着色。20 年来，Vigoda 的结果一直是一般图中最著名的结果，直到陈等人（2019）针对 $k >(11/6 - \epsilon ) \Delta$ 建立了翻转动力学的最优混合，其中 $ \epsilon \approx 10^{-5}$。我们首次提出了对这些结果的实质性改进。我们证明了当 $k \geq 1.809 \Delta$ 时，翻转动力学的最佳混合时间约束为 $O(n\log{n})$。通过最近的谱独立性结果，我们得出了当 $\Delta=O(1)$ 时，在相同的 $k/\Delta$ 范围内，格劳伯动力学的最佳混合时间为 $O(n\log{n})$。我们的证明利用了路径耦合与 "无阻塞 "邻居的简单加权汉明距离。

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arXiv - CS - Discrete Mathematics

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