Stability and Sharper Risk Bounds with Convergence Rate O(1/n2)

Abstract

Prior work (Klochkov \& Zhivotovskiy, 2021) establishes at most O( (n)/n) excess risk bounds via algorithmic stability for strongly-convex learners with high probability. We show that under the similar common assumptions -- - Polyak-Lojasiewicz condition, smoothness, and Lipschitz continous for losses -- - rates of O(2(n)/n2) are at most achievable. To our knowledge, our analysis also provides the tightest high-probability bounds for gradient-based generalization gaps in nonconvex settings.

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