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Convergence of Constant Step Stochastic Gradient Descent for Non-Smooth Non-Convex Functions.

Authors :
Bianchi, Pascal
Hachem, Walid
Schechtman, Sholom
Source :
Set-Valued & Variational Analysis; Sep2022, Vol. 30 Issue 3, p1117-1147, 31p
Publication Year :
2022

Abstract

This paper studies the asymptotic behavior of the constant step Stochastic Gradient Descent for the minimization of an unknown function, defined as the expectation of a non convex, non smooth, locally Lipschitz random function. As the gradient may not exist, it is replaced by a certain operator: a reasonable choice is to use an element of the Clarke subdifferential of the random function; another choice is the output of the celebrated backpropagation algorithm, which is popular amongst practioners, and whose properties have recently been studied by Bolte and Pauwels. Since the expectation of the chosen operator is not in general an element of the Clarke subdifferential of the mean function, it has been assumed in the literature that an oracle of the Clarke subdifferential of the mean function is available. As a first result, it is shown in this paper that such an oracle is not needed for almost all initialization points of the algorithm. Next, in the small step size regime, it is shown that the interpolated trajectory of the algorithm converges in probability (in the compact convergence sense) towards the set of solutions of a particular differential inclusion: the subgradient flow. Finally, viewing the iterates as a Markov chain whose transition kernel is indexed by the step size, it is shown that the invariant distribution of the kernel converge weakly to the set of invariant distribution of this differential inclusion as the step size tends to zero. These results show that when the step size is small, with large probability, the iterates eventually lie in a neighborhood of the critical points of the mean function. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
18770533
Volume :
30
Issue :
3
Database :
Complementary Index
Journal :
Set-Valued & Variational Analysis
Publication Type :
Academic Journal
Accession number :
158080467
Full Text :
https://doi.org/10.1007/s11228-022-00638-z