Distributed (∆+1)-coloring in sublogarithmic rounds

Proceedings of the forty-eighth annual ACM symposium on Theory of Computing Pub Date : 2016-06-19 DOI:10.1145/2897518.2897533
David G. Harris, Johannes Schneider, Hsin-Hao Su
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引用次数: 91

Abstract

The (∆+1)-coloring problem is a fundamental symmetry breaking problem in distributed computing. We give a new randomized coloring algorithm for (∆+1)-coloring running in O(√log ∆)+ 2^O(√log log n) rounds with probability 1-1/n^Ω(1) in a graph with n nodes and maximum degree ∆. This implies that the (∆+1)-coloring problem is easier than the maximal independent set problem and the maximal matching problem, due to their lower bounds by Kuhn, Moscibroda, and Wattenhofer [PODC'04]. Our algorithm also extends to the list-coloring problem where the palette of each node contains ∆+1 colors.
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次对数轮分布(∆+1)着色
(∆+1)染色问题是分布式计算中一个基本的对称性破缺问题。我们给出了一种新的(∆+1)随机化着色算法——在一个n个节点且最大度为∆的图中,以概率为1-1/n^Ω(1)的方式在O(√log∆)+ 2^O(√log log n)轮中运行。这意味着(∆+1)染色问题比最大独立集问题和最大匹配问题更容易,因为Kuhn, Moscibroda和Wattenhofer [PODC'04]给出了它们的下界。我们的算法还扩展到列表着色问题,其中每个节点的调色板包含∆+1种颜色。
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Proceedings of the forty-eighth annual ACM symposium on Theory of Computing
Proceedings of the forty-eighth annual ACM symposium on Theory of Computing
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