Quasipolynomial-time algorithms for Gibbs point processes

Abstract

We demonstrate a quasipolynomial-time deterministic approximation algorithm for the partition function of a Gibbs point process interacting via a finite-range stable potential. This result holds for all activities λ for which the partition function satisfies a zero-free assumption in a neighborhood of the interval [0,λ]. As a corollary, for all finite-range stable potentials we obtain a quasipolynomial-time determinsitic algorithm for all λ < /(eB + 1 Cφ) where Cφ is a temperedness parameter and B is the stability constant of φ. In the special case of a repulsive potential such as the hard-sphere gas we improve the range of activity by a factor of at least e2 and obtain a quasipolynomial-time deterministic approximation algorithm for all λ < e/φ, where φ is the potential-weighted connective constant of the potential φ. Our algorithm approximates coefficients of the cluster expansion of the partition function and uses the interpolation method of Barvinok to extend this approximation throughout the zero-free region.