Riemannian Langevin Monte Carlo schemes for sampling PSD matrices with fixed rank

Abstract

This paper introduces two explicit schemes to sample matrices from Gibbs distributions on Sn,p+, the manifold of real positive semi-definite (PSD) matrices of size n× n and rank p. Given an energy function E: Sn,p+ R and certain Riemannian metrics g on Sn,p+, these schemes rely on an Euler-Maruyama discretization of the Riemannian Langevin equation (RLE) with Brownian motion on the manifold. We present numerical schemes for RLE under two fundamental metrics on Sn,p+: (a) the metric obtained from the embedding of Sn,p+ ⊂ Rn× n ; and (b) the Bures-Wasserstein metric corresponding to quotient geometry. We also provide examples of energy functions with explicit Gibbs distributions that allow numerical validation of these schemes.