Algorithms for mean-field variational inference via polyhedral optimization in the Wasserstein space

arXiv - MATH - Statistics Theory Pub Date : 2023-12-05 DOI:arxiv-2312.02849

Yiheng Jiang, Sinho Chewi, Aram-Alexandre Pooladian

引用次数: 0

Abstract

We develop a theory of finite-dimensional polyhedral subsets over the Wasserstein space and optimization of functionals over them via first-order methods. Our main application is to the problem of mean-field variational inference, which seeks to approximate a distribution $\pi$ over $\mathbb{R}^d$ by a product measure $\pi^\star$. When $\pi$ is strongly log-concave and log-smooth, we provide (1) approximation rates certifying that $\pi^\star$ is close to the minimizer $\pi^\star_\diamond$ of the KL divergence over a \emph{polyhedral} set $\mathcal{P}_\diamond$, and (2) an algorithm for minimizing $\text{KL}(\cdot\|\pi)$ over $\mathcal{P}_\diamond$ with accelerated complexity $O(\sqrt \kappa \log(\kappa d/\varepsilon^2))$, where $\kappa$ is the condition number of $\pi$.

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基于Wasserstein空间多面体优化的平均场变分推理算法

我们建立了wasserstein空间上有限维多面体子集的理论，并通过一阶方法对其上的泛函进行了优化。我们的主要应用是均值场变分推理问题，它寻求近似分布 $\pi$ 结束 $\mathbb{R}^d$通过产品测量 $\pi^\star$．什么时候 $\pi$ 是强对数凹和对数光滑，我们提供(1)近似速率证明 $\pi^\star$ 接近最小化器 $\pi^\star_\diamond$ KL散度的值 \emph{多面体} 集合 $\mathcal{P}_\diamond$(2)最小化算法 $\text{KL}(\cdot\|\pi)$ 结束 $\mathcal{P}_\diamond$ 伴随着加速的复杂性 $O(\sqrt \kappa \log(\kappa d/\varepsilon^2))$，其中 $\kappa$ 的条件数 $\pi$．

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arXiv - MATH - Statistics Theory

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