Related papers: Stability and convergence analysis of AdaGrad for non-convex optimization via novel stopping time-based techniques

Stability and convergence analysis of AdaGrad for non-convex optimization via novel stopping time-based techniques

URL: http://arxiv.org/abs/2409.05023v3
Date: Sun, 29 Dec 2024 02:53:55 GMT
Title: Stability and convergence analysis of AdaGrad for non-convex optimization via novel stopping time-based techniques
Authors: Ruinan Jin, Xiaoyu Wang, Baoxiang Wang,
Abstract summary: Adaptive gradients (AdaGrad) have emerged as powerful tools in deep learning. We provide a comprehensive analysis of AdaGrad and bridge the existing gaps in the literature.
Score: 17.34603953600226
License:
Abstract: Adaptive gradient optimizers (AdaGrad), which dynamically adjust the learning rate based on iterative gradients, have emerged as powerful tools in deep learning. These adaptive methods have significantly succeeded in various deep learning tasks, outperforming stochastic gradient descent. However, despite AdaGrad's status as a cornerstone of adaptive optimization, its theoretical analysis has not adequately addressed key aspects such as asymptotic convergence and non-asymptotic convergence rates in non-convex optimization scenarios. This study aims to provide a comprehensive analysis of AdaGrad and bridge the existing gaps in the literature. We introduce a new stopping time technique from probability theory, which allows us to establish the stability of AdaGrad under mild conditions. We further derive the asymptotically almost sure and mean-square convergence for AdaGrad. In addition, we demonstrate the near-optimal non-asymptotic convergence rate measured by the average-squared gradients in expectation, which is stronger than the existing high-probability results. The techniques developed in this work are potentially of independent interest for future research on other adaptive stochastic algorithms.

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