Adaptive restart of accelerated gradient methods under local quadratic growth condition

Olivier Fercoq; Zheng Qu

doi:10.1093/imanum/drz007

Adaptive restart of accelerated gradient methods under local quadratic growth condition

Olivier Fercoq
, Zheng Qu

Université Paris-Saclay
University of Hong Kong

Research output: Contribution to journal › Article › peer-review

Abstract

By analyzing accelerated proximal gradient methods under a local quadratic growth condition, we show that restarting these algorithms at any frequency gives a globally linearly convergent algorithm. This result was previously known only for long enough frequencies. Then as the rate of convergence depends on the match between the frequency and the quadratic error bound, we design a scheme to automatically adapt the frequency of restart from the observed decrease of the norm of the gradient mapping. Our algorithm has a better theoretical bound than previously proposed methods for the adaptation to the quadratic error bound of the objective. We illustrate the efficiency of the algorithm on Lasso, regularized logistic regression and total variation denoising problems.

Original language	English
Pages (from-to)	2069-2095
Number of pages	27
Journal	IMA Journal of Numerical Analysis
Volume	39
Issue number	4
DOIs	https://doi.org/10.1093/imanum/drz007
Publication status	Published - 16 Oct 2019
Externally published	Yes

Keywords

accelerated gradient descent
quadratic growth condition
restarting
unknown error bound

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10.1093/imanum/drz007

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abstract = "By analyzing accelerated proximal gradient methods under a local quadratic growth condition, we show that restarting these algorithms at any frequency gives a globally linearly convergent algorithm. This result was previously known only for long enough frequencies. Then as the rate of convergence depends on the match between the frequency and the quadratic error bound, we design a scheme to automatically adapt the frequency of restart from the observed decrease of the norm of the gradient mapping. Our algorithm has a better theoretical bound than previously proposed methods for the adaptation to the quadratic error bound of the objective. We illustrate the efficiency of the algorithm on Lasso, regularized logistic regression and total variation denoising problems.",

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AU - Fercoq, Olivier

AU - Qu, Zheng

PY - 2019/10/16

Y1 - 2019/10/16

N2 - By analyzing accelerated proximal gradient methods under a local quadratic growth condition, we show that restarting these algorithms at any frequency gives a globally linearly convergent algorithm. This result was previously known only for long enough frequencies. Then as the rate of convergence depends on the match between the frequency and the quadratic error bound, we design a scheme to automatically adapt the frequency of restart from the observed decrease of the norm of the gradient mapping. Our algorithm has a better theoretical bound than previously proposed methods for the adaptation to the quadratic error bound of the objective. We illustrate the efficiency of the algorithm on Lasso, regularized logistic regression and total variation denoising problems.

AB - By analyzing accelerated proximal gradient methods under a local quadratic growth condition, we show that restarting these algorithms at any frequency gives a globally linearly convergent algorithm. This result was previously known only for long enough frequencies. Then as the rate of convergence depends on the match between the frequency and the quadratic error bound, we design a scheme to automatically adapt the frequency of restart from the observed decrease of the norm of the gradient mapping. Our algorithm has a better theoretical bound than previously proposed methods for the adaptation to the quadratic error bound of the objective. We illustrate the efficiency of the algorithm on Lasso, regularized logistic regression and total variation denoising problems.

KW - accelerated gradient descent

KW - quadratic growth condition

KW - restarting

KW - unknown error bound

U2 - 10.1093/imanum/drz007

DO - 10.1093/imanum/drz007

M3 - Article

AN - SCOPUS:85074151438

SN - 0272-4979

VL - 39

SP - 2069

EP - 2095

JO - IMA Journal of Numerical Analysis

JF - IMA Journal of Numerical Analysis

IS - 4

ER -

Adaptive restart of accelerated gradient methods under local quadratic growth condition

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Keywords

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