能量步蒙特卡罗方法：一种完全保密的、接受率为 100%的哈密尔顿蒙特卡罗方法

arXiv - PHYS - Mathematical Physics Pub Date : 2023-12-12 DOI:arxiv-2312.07215

Ignacio Romero, Michael Ortiz

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引用次数: 0

摘要

我们介绍了能量步进蒙特卡罗(ESMC)方法，这是一种基于提议阶段的传统动态解释但采用能量步进积分器的马尔可夫链蒙特卡罗(MCMC)算法。能量步进积分器是准显式的、辛的、守恒的和对称的。由于能量步进积分器的精确节能，ESMC对提案状态的接受率为100%。数值测试提供了经验证据，表明ESMC提供了许多额外的好处:它生成的马尔可夫链具有弱自相关性，它具有探索采样概率分布的远距离特征集的能力，并且它产生的误差比用哈密顿蒙特卡罗(HMC)和类似步长采样的链更小。最后，ESMC受益于能量步进积分器的精确对称守恒特性，当从具有内置不对称性的势中采样时，无论是否明确已知。

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The energy-stepping Monte Carlo method: an exactly symmetry-preserving, a Hamiltonian Monte Carlo method with a 100% acceptance ratio

We introduce the energy-stepping Monte Carlo (ESMC) method, a Markov chain Monte Carlo (MCMC) algorithm based on the conventional dynamical interpretation of the proposal stage but employing an energy-stepping integrator. The energy-stepping integrator is quasi-explicit, symplectic, energy-conserving, and symmetry-preserving. As a result of the exact energy conservation of energy-stepping integrators, ESMC has a 100\%\ acceptance ratio of the proposal states. Numerical tests provide empirical evidence that ESMC affords a number of additional benefits: the Markov chains it generates have weak autocorrelation, it has the ability to explore distant characteristic sets of the sampled probability distribution and it yields smaller errors than chains sampled with Hamiltonian Monte Carlo (HMC) and similar step sizes. Finally, ESMC benefits from the exact symmetry conservation properties of the energy-stepping integrator when sampling from potentials with built-in symmetries, whether explicitly known or not.

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arXiv - PHYS - Mathematical Physics

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