High-Temperature Increasing Propagation of Chaos and its breakdown for the Hopfield Model

Abstract

We analyze increasing propagation of chaos in the high temperature regime of a disordered mean-field model, the Hopfield model. We show that for β<1 (the true high temperature region) we have increasing propagation of chaos as long as the size of the marginals k=k(N) and the number of patterns M=M(N) satisfies Mk/N 0. For M=o( N) we show that propagation of chaos breaks down for k/N c>0. At the ciritcal temperature we show that, for M finite, there is increasing propagation of chaos, for k=o( N), while we have breakdown of propagation of chaos for k=c N, for a c>0. All these reulst hold in probability in the disorder.