Abstract
We study the geometric ergodicity and the long-time behavior of the Random Batch Method for interacting particle systems, which exhibits superior numerical performance in recent large-scale scientific computing experiments. We show that for both the interacting particle system (IPS) and the random batch interacting particle system (RBâIPS), the distribution laws converge to their respective invariant distributions exponentially, and the convergence rate does not depend on the number of particles [Formula: see text], the time step [Formula: see text] for batch divisions or the batch size [Formula: see text]. Moreover, the Wasserstein-1 distance between the invariant distributions of the IPS and the RBâIPS is bounded by [Formula: see text], showing that the RBâIPS can be used to sample the invariant distribution of the IPS accurately with greatly reduced computational cost.
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