Accelerated Zeroth-order Method for Non-Smooth Stochastic Convex Optimization Problem with Infinite Variance

Authors

Nikita Kornilov, MIPT
Ohad Shamir, Weizmann Institute of Science Israel
Aleksandr Lobanov, MIPT
Darina Dvinskikh, Ivannikov Institute for System Programming of the RAS
Alexander Gasnikov, MIPT
Innokentiy Shibaev, MIPT
Eduard Gorbunov, MBZUAIFollow
Samuel Horváth, MBZUAIFollow

Document Type

Conference Proceeding

Publication Title

Advances in Neural Information Processing Systems

Abstract

In this paper, we consider non-smooth stochastic convex optimization with two function evaluations per round under infinite noise variance. In the classical setting when noise has finite variance, an optimal algorithm, built upon the batched accelerated gradient method, was proposed in [17]. This optimality is defined in terms of iteration and oracle complexity, as well as the maximal admissible level of adversarial noise. However, the assumption of finite variance is burdensome and it might not hold in many practical scenarios. To address this, we demonstrate how to adapt a refined clipped version of the accelerated gradient (Stochastic Similar Triangles) method from [35] for a two-point zero-order oracle. This adaptation entails extending the batching technique to accommodate infinite variance - a non-trivial task that stands as a distinct contribution of this paper.

Publication Date

1-1-2023

Recommended Citation

N. Kornilov et al., "Accelerated Zeroth-order Method for Non-Smooth Stochastic Convex Optimization Problem with Infinite Variance," Advances in Neural Information Processing Systems, vol. 36, Jan 2023.