Rapid Mixing for Colorings via Spectral Independence
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The spectral independence approach of Anari et al. (2020) utilized recent results on high-dimensional expanders of Alev and Lau (2020) and established rapid mixing of the Glauber dynamics for the hard-core model defined on weighted independent sets. We develop the spectral independence approach for colorings, and obtain new algorithmic results for the corresponding counting/sampling problems. Let α^*≈ 1.763 denote the solution to (1/x)=x and let α>α^*. We prove that, for any triangle-free graph G=(V,E) with maximum degree Δ, for all q≥αΔ+1, the mixing time of the Glauber dynamics for q-colorings is polynomial in n=|V|, with the exponent of the polynomial independent of Δ and q. In comparison, previous approximate counting results for colorings held for a similar range of q (asymptotically in Δ) but with larger girth requirement or with a running time where the polynomial exponent depended on Δ and q (exponentially). One further feature of using the spectral independence approach to study colorings is that it avoids many of the technical complications in previous approaches caused by coupling arguments or by passing to the complex plane; the key improvement on the running time is based on relatively simple combinatorial arguments which are then translated into spectral bounds.
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