A diffusion limit for a model of interacting spins/queues with log-linear interaction

In this paper we establish a diffusion limit for an interacting spin model defined in terms of a multi-component Markov chain whose components (spins) are indexed by vertices of a finite graph. The spins take values in a finite set of non-negative integers and evolve subject to a graph based log-linear interaction. We show that if the set of possible spin values expands to the set of all non-negative integers, then a time-scaled and normalised version of the Markov chain converges to a system of interacting Ornstein-Uhlenbeck processes reflected at the origin. This limit is akin to heavy traffic limits in queueing (and our model can be naturally interpreted as a queueing model). Our proof draws on developments in queueing theory and relies on martingale methods.