Efficient algorithms for the Potts model on small-set expanders

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Authors Charles Carlson, Ewan Davies, Alexandra Kolla arXiv ID 2003.01154 Category cs.DS: Data Structures & Algorithms Cross-listed cs.DM, math.CO Citations 13 Venue arXiv.org Last Checked 3 months ago
Abstract
An emerging trend in approximate counting is to show that certain `low-temperature' problems are easy on typical instances, despite worst-case hardness results. For the class of regular graphs one usually shows that expansion can be exploited algorithmically, and since random regular graphs are good expanders with high probability the problem is typically tractable. Inspired by approaches used in subexponential-time algorithms for Unique Games, we develop an approximation algorithm for the partition function of the ferromagnetic Potts model on graphs with a small-set expansion condition. In such graphs it may not suffice to explore the state space of the model close to ground states, and a novel feature of our method is to efficiently find a larger set of `pseudo-ground states' such that it is enough to explore the model around each pseudo-ground state.
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