A lower bound for the distributed Lovász local lemma

Proceedings of the forty-eighth annual ACM symposium on Theory of Computing Pub Date : 2015-11-03 DOI:10.1145/2897518.2897570
S. Brandt, O. Fischer, J. Hirvonen, Barbara Keller, Tuomo Lempiäinen, J. Rybicki, J. Suomela, Jara Uitto
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引用次数: 112

Abstract

We show that any randomised Monte Carlo distributed algorithm for the Lovász local lemma requires Omega(log log n) communication rounds, assuming that it finds a correct assignment with high probability. Our result holds even in the special case of d = O(1), where d is the maximum degree of the dependency graph. By prior work, there are distributed algorithms for the Lovász local lemma with a running time of O(log n) rounds in bounded-degree graphs, and the best lower bound before our work was Omega(log* n) rounds [Chung et al. 2014].
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分布式Lovász局部引理的下界
我们证明了任何用于Lovász局部引理的随机蒙特卡罗分布式算法都需要Omega(log log n)轮通信,假设它以高概率找到正确的分配。我们的结果即使在d = O(1)的特殊情况下也成立,其中d是依赖图的最大程度。根据之前的工作,Lovász局部引理的分布式算法在有界度图中运行时间为O(log n)轮,在我们的工作之前,最好的下界是Omega(log* n)轮[Chung et al. 2014]。
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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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