Minimizing Quadratic Functions in Constant Time

Abstract

A sampling-based optimization method for quadratic functions is proposed. Our method approximately solves the following n-dimensional quadratic minimization problem in constant time, which is independent of n: z*=v ∈ Rnv, A v + nv, diag(d)v + nb, v, where A ∈ Rn × n is a matrix and d,b ∈ Rn are vectors. Our theoretical analysis specifies the number of samples k(δ, ε) such that the approximated solution z satisfies |z - z*| = O(ε n2) with probability 1-δ. The empirical performance (accuracy and runtime) is positively confirmed by numerical experiments.