Deterministic counting from coupling independence

Abstract

We show that spin systems with bounded degrees and coupling independence admit fully polynomial time approximation schemes (FPTAS). We design a new recursive deterministic counting algorithm to achieve this. As applications, we give the first FPTASes for q-colourings on graphs of bounded maximum degree 3, when q (11/6-0) for some small 0≈ 10-5, or when 125 and q 1.809, and on graphs with sufficiently large (but constant) girth, when q≥+3. These bounds match the current best randomised approximate counting algorithms by Chen, Delcourt, Moitra, Perarnau, and Postle (2019), Carlson and Vigoda (2024), and Chen, Liu, Mani, and Moitra (2023), respectively.

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