Beyond singular value gaps in randomized subspace approximation

Abstract

The success of randomized range finders (RRFs) is typically analyzed via the singular value gaps of a target matrix A. In this work, we show that the so-called Frobenius singular value ratio provides a sharper analysis of an RRF's subspace quality under Gaussian sketching. For any matrix A and any integer k0, we derive an explicit, closed-form expression for the cumulative distribution function of the largest principal angle between the k-dominant singular subspace of A and the approximate RRF subspace, expressing it in terms of a hypergeometric function. We obtain definitive probabilistic guarantees for RRFs that are strictly stronger than those obtained previously.

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