Polynomial-time approximation algorithms for the antiferromagnetic Ising model on line graphs

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Authors Martin Dyer, Marc Heinrich, Mark Jerrum, Haiko MΓΌller arXiv ID 2005.07944 Category cs.DS: Data Structures & Algorithms Cross-listed cs.CC, math.PR Citations 8 Venue Combinatorics, probability & computing Last Checked 4 months ago
Abstract
We present a polynomial-time Markov chain Monte Carlo algorithm for estimating the partition function of the antiferromagnetic Ising model on any line graph. The analysis of the algorithm exploits the "winding" technology devised by McQuillan [CoRR abs/1301.2880 (2013)] and developed by Huang, Lu and Zhang [Proc. 27th Symp. on Disc. Algorithms (SODA16), 514-527]. We show that exact computation of the partition function is #P-hard, even for line graphs, indicating that an approximation algorithm is the best that can be expected. We also show that Glauber dynamics for the Ising model is rapidly mixing on line graphs, an example being the kagome lattice.
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