High-dimensional CLT: Improvements, Non-uniform Extensions and Large Deviations

Abstract

Central limit theorems (CLTs) for high-dimensional random vectors with dimension possibly growing with the sample size have received a lot of attention in the recent times. Chernozhukov et al. (2017) proved a Berry--Esseen type result for high-dimensional averages for the class of hyperrectangles and they proved that the rate of convergence can be upper bounded by n-1/6 upto a polynomial factor of p (where n represents the sample size and p denotes the dimension). Convergence to zero of the bound requires 7p = o(n). We improve upon their result which only requires 4p = o(n) (in the best case). This improvement is made possible by a sharper dimension-free anti-concentration inequality for Gaussian process on a compact metric space. In addition, we prove two non-uniform variants of the high-dimensional CLT based on the large deviation and non-uniform CLT results for random variables in a Banach space by Bentkus, Ra ckauskas, and Paulauskas. We apply our results in the context of post-selection inference in linear regression and of empirical processes.