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Main Authors: Zhou, Yuze, Tan, Zhiqiang
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.09807
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author Zhou, Yuze
Tan, Zhiqiang
author_facet Zhou, Yuze
Tan, Zhiqiang
contents Gradient-based Markov Chain Monte Carlo methods have recently received much attention for sampling discrete distributions, with interesting connections to their continuous counterparts. For examples, there are two discrete analogues to the Metropolis-adjusted Langevin Algorithm (MALA). As motivated by Hamiltonian-Assisted Metropolis Sampling (HAMS), we propose Discrete HAMS (DHAMS), a discrete sampler which, for the first time, not only exploits gradient information but also incorporates a Gaussian momentum variable and samples a Hamiltonian as an augmented distribution. DHAMS is derived through several steps, including an auxiliary-variable proposal scheme, negation and gradient correction for the momentum variable, and over-relaxation for the state variable. Two distinctive properties are achieved simultaneously. One is generalized detailed balance, which enables irreversible exploration of the target distribution. The other is a rejection-free property for a target distribution with a linear potential function. In experiments involving both ordinal and binary distributions, DHAMS algorithms consistently yield superior performance compared with existing algorithms.
format Preprint
id arxiv_https___arxiv_org_abs_2507_09807
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Discrete Hamiltonian-Assisted Metropolis Sampling
Zhou, Yuze
Tan, Zhiqiang
Methodology
Gradient-based Markov Chain Monte Carlo methods have recently received much attention for sampling discrete distributions, with interesting connections to their continuous counterparts. For examples, there are two discrete analogues to the Metropolis-adjusted Langevin Algorithm (MALA). As motivated by Hamiltonian-Assisted Metropolis Sampling (HAMS), we propose Discrete HAMS (DHAMS), a discrete sampler which, for the first time, not only exploits gradient information but also incorporates a Gaussian momentum variable and samples a Hamiltonian as an augmented distribution. DHAMS is derived through several steps, including an auxiliary-variable proposal scheme, negation and gradient correction for the momentum variable, and over-relaxation for the state variable. Two distinctive properties are achieved simultaneously. One is generalized detailed balance, which enables irreversible exploration of the target distribution. The other is a rejection-free property for a target distribution with a linear potential function. In experiments involving both ordinal and binary distributions, DHAMS algorithms consistently yield superior performance compared with existing algorithms.
title Discrete Hamiltonian-Assisted Metropolis Sampling
topic Methodology
url https://arxiv.org/abs/2507.09807