On the worst-case complexity of the gradient method with exact line search for smooth strongly convex functions

de Klerk, E.; Glineur, François; Taylor, Adrien B.

doi:10.1007/s11590-016-1087-4

On the worst-case complexity of the gradient method with exact line search for smooth strongly convex functions

Journal article (2016)

Authors

E. de Klerk Tilburg University, Discrete Mathematics and Optimization -

François Glineur Université Catholique de Louvain

Adrien B. Taylor Université Catholique de Louvain

Research Group

Discrete Mathematics and Optimization () (TU Delft)

DOI: https://doi.org/10.1007/s11590-016-1087-4

Semidefinite programming Gradient method Steepest descent Performance estimation problem

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http://resolver.tudelft.nl/uuid:b3ecfccf-5481-4660-ba40-d7d477ae2779

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Published Date

2016

Language

English

Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Delft Institute of Applied Mathematics

Research Group

Discrete Mathematics and Optimization

Abstract

We consider the gradient (or steepest) descent method with exact line search applied to a strongly convex function with Lipschitz continuous gradient. We establish the exact worst-case rate of convergence of this scheme, and show that this worst-case behavior is exhibited by a certain convex quadratic function. We also give the tight worst-case complexity bound for a noisy variant of gradient descent method, where exact line-search is performed in a search direction that differs from negative gradient by at most a prescribed relative tolerance. The proofs are computer-assisted, and rely on the resolutions of semidefinite programming performance estimation problems as introduced in the paper (Drori and Teboulle, Math Progr 145(1–2):451–482, 2014).

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