From Sampling to Optimization on Discrete Domains with Applications to Determinant Maximization
Abstract
We show a connection between sampling and optimization on discrete domains. For a family of distributions defined on size subsets of a ground set of elements that is closed under external fields, we show that rapid mixing of natural local random walks implies the existence of simple approximation algorithms to find . More precisely we show that if (multi-step) down-up random walks have spectral gap at least inverse polynomially large in , then (multi-step) local search can find within a factor of . As the main application of our result, we show a simple nearly-optimal -factor approximation algorithm for MAP inference on nonsymmetric DPPs. This is the first nontrivial multiplicative approximation for finding the largest size principal minor of a square (not-necessarily-symmetric) matrix with . We establish the connection between sampling and optimization by showing that an exchange inequality, a concept rooted in discrete convex analysis, can be derived from fast mixing of local random walks. We further connect exchange inequalities with composable core-sets for optimization, generalizing recent results on composable core-sets for DPP maximization to arbitrary distributions that satisfy either the strongly Rayleigh property or that have a log-concave generating polynomial.
Cite
@article{arxiv.2102.05347,
title = {From Sampling to Optimization on Discrete Domains with Applications to Determinant Maximization},
author = {Nima Anari and Thuy-Duong Vuong},
journal= {arXiv preprint arXiv:2102.05347},
year = {2021}
}