Nonlinear Large Deviations: Beyond the Hypercube

We present a framework to calculate large deviations for nonlinear functions of independent random variables supported on compact sets in Banach spaces, by extending the result in Chatterjee and Dembo [6]. Previous research on nonlinear large deviations has only focused on random variables supported on $\{-1,+1\}^{n}$, a small subset of random objects people usually study, thus it is of natural interest and need to research the corresponding theory for random variables with general distributions. Since our results put fewer constraints on the random variables, it has considerable flexibility in application. To show this, we provide examples with continuous and high dimensional random variables. Our framework could also be used to verify the mathematical rigor of the mean field approximation method; to demonstrate, we verify the mean field approximation for a class of spin vector models.