Stochastic Langevin Monte Carlo for (weakly) log-concave posterior distributions
Marelys Crespo,
Sébastien Gadat and
Xavier Gendre
No 23-1398, TSE Working Papers from Toulouse School of Economics (TSE)
Abstract:
In this paper, we investigate a continuous time version of the Stochastic Langevin Monte Carlo method, introduced in [39], that incorporates a stochastic sampling step inside the traditional overdamped Langevin diffusion. This method is popular in machine learning for sampling posterior distribution. We will pay specific attention in our work to the computational cost in terms of n (the number of observations that produces the posterior distribution), and d (the dimension of the ambient space where the parameter of interest is living). We derive our analysis in the weakly convex framework, which is parameterized with the help of the Kurdyka- Lojasiewicz (KL) inequality, that permits to handle a vanishing curvature settings, which is far less restrictive when compared to the simple strongly convex case. We establish that the final horizon of simulation to obtain an ε approximation (in terms of entropy) is of the order (d log(n)²)(1+r)² [log²(ε−1) + n²d²(1+r) log4(1+r)(n)] with a Poissonian subsampling of parameter n(d log²(n))1+r)−1, where the parameter r is involved in the KL inequality and varies between 0 (strongly convex case) and 1 (limiting Laplace situation).
Date: 2023-01-16
New Economics Papers: this item is included in nep-cmp and nep-ecm
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Persistent link: https://EconPapers.repec.org/RePEc:tse:wpaper:127747
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