Coupling and Convergence for Hamiltonian Monte Carlo

Nawaf Bou-Rabee; Andreas Eberle; Raphael Zimmer

doi:10.1214/19-AAP1528

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Coupling and Convergence for Hamiltonian Monte Carlo

Journal article

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Coupling and Convergence for Hamiltonian Monte Carlo

Nawaf Bou-Rabee, Andreas Eberle and Raphael Zimmer

The Annals of applied probability, Vol.30(3), pp.1209-1250

05/01/2018

DOI: https://doi.org/10.1214/19-AAP1528

Abstract

Ann. Appl. Probab., Volume 30, Number 3 (2020), 1209-1250 Based on a new coupling approach, we prove that the transition step of the Hamiltonian Monte Carlo algorithm is contractive w.r.t. a carefully designed Kantorovich (L1 Wasserstein) distance. The lower bound for the contraction rate is explicit. Global convexity of the potential is not required, and thus multimodal target distributions are included. Explicit quantitative bounds for the number of steps required to approximate the stationary distribution up to a given error are a direct consequence of contractivity. These bounds show that HMC can overcome diffusive behaviour if the duration of the Hamiltonian dynamics is adjusted appropriately.

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Title: Coupling and Convergence for Hamiltonian Monte Carlo
Creators: Nawaf Bou-Rabee
Andreas Eberle
Raphael Zimmer
Publication Details: The Annals of applied probability, Vol.30(3), pp.1209-1250
Date published: 05/01/2018
Academic Unit: Mathematical Sciences (FASC)
Language: English
Resource Type: Journal article
Identifiers: 991031666056704646