L2-Wasserstein contraction for Euler schemes of elliptic diffusions and interacting particle systems

Abstract

We show the L2-Wasserstein contraction for the transition kernel of a discretised diffusion process, under a contractivity at infinity condition on the drift and a sufficiently high diffusivity requirement. This extends recent results that, under similar assumptions on the drift but without the diffusivity restrictions, showed the L1-Wasserstein contraction, or Lp-Wasserstein bounds for p > 1 that were, however, not true contractions. We explain how showing the true L2-Wasserstein contraction is crucial for obtaining the local Poincar\'e inequality for the transition kernel of the Euler scheme of a diffusion. Moreover, we discuss other consequences of our contraction results, such as concentration inequalities and convergence rates in KL-divergence and total variation. We also study the corresponding L2-Wasserstein contraction for discretisations of interacting diffusions. As a particular application, this allows us to analyse the behaviour of particle systems that can be used to approximate a class of McKean-Vlasov SDEs that were recently studied in the mean-field optimization literature.

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