Lower Complexity Bounds of Finite-Sum Optimization Problems: The Results and Construction

In this paper, we study the lower complexity bounds for finite-sum optimization problems, where the objective is the average of $n$ individual component functions. We consider Proximal Incremental First-order (PIFO) algorithms which have access to the gradient and proximal oracles for each compone...

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Veröffentlicht in:	arXiv.org 2023-01
Hauptverfasser:	Han, Yuze, Xie, Guangzeng, Zhang, Zhihua
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Sprache:	eng
Schlagworte:	Algorithms Complexity First order algorithms Lower bounds Minimax technique Optimization
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description	In this paper, we study the lower complexity bounds for finite-sum optimization problems, where the objective is the average of $n$ individual component functions. We consider Proximal Incremental First-order (PIFO) algorithms which have access to the gradient and proximal oracles for each component function. To incorporate loopless methods, we also allow PIFO algorithms to obtain the full gradient infrequently. We develop a novel approach to constructing the hard instances, which partitions the tridiagonal matrix of classical examples into $n$ groups. This construction is friendly to the analysis of PIFO algorithms. Based on this construction, we establish the lower complexity bounds for finite-sum minimax optimization problems when the objective is convex-concave or nonconvex-strongly-concave and the class of component functions is $L$-average smooth. Most of these bounds are nearly matched by existing upper bounds up to log factors. We can also derive similar lower bounds for finite-sum minimization problems as previous work under both smoothness and average smoothness assumptions. Our lower bounds imply that proximal oracles for smooth functions are not much more powerful than gradient oracles.
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subjects	Algorithms Complexity First order algorithms Lower bounds Minimax technique Optimization
title	Lower Complexity Bounds of Finite-Sum Optimization Problems: The Results and Construction
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