FASTER LAGRANGIAN-BASED METHODS IN CONVEX OPTIMIZATION

Shoham Sabach; Marc Teboulle

doi:10.1137/20M1375358

FASTER LAGRANGIAN-BASED METHODS IN CONVEX OPTIMIZATION

Shoham Sabach, Marc Teboulle

Technion - Israel Institute of Technology, Tel Aviv University

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

Abstract

In this paper, we aim at unifying, simplifying, and improving the convergence rate analysis of Lagrangian-based methods for convex optimization problems. We first introduce the notion of nice primal algorithmic map, which plays a central role in the unification and in the simplification of the analysis of most Lagrangian-based methods. Equipped with a nice primal algorithmic map, we then introduce a versatile generic scheme, which allows for the design and analysis of faster Lagrangian (FLAG) methods with new provably sublinear rate of convergence expressed in terms of function values and feasibility violation of the original (nonergodic) generated sequence. To demonstrate the power and versatility of our approach and results, we show that most well-known iconic Lagrangian-based schemes admit a nice primal algorithmic map and hence share the new faster rate of convergence results within their corresponding FLAG.

Original language	English
Pages (from-to)	204-227
Number of pages	24
Journal	SIAM Journal on Optimization
Volume	32
Issue number	1
DOIs	https://doi.org/10.1137/20M1375358
State	Published - 2022

Keywords

Lagrangian multiplier methods
alternating direction method of multiplier
augmented Lagrangian
convex composite minimization
fast nonergodic global rate of convergence
nonsmooth optimization
proximal multiplier algorithms

All Science Journal Classification (ASJC) codes

Software
Theoretical Computer Science

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10.1137/20M1375358

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title = "FASTER LAGRANGIAN-BASED METHODS IN CONVEX OPTIMIZATION",

abstract = "In this paper, we aim at unifying, simplifying, and improving the convergence rate analysis of Lagrangian-based methods for convex optimization problems. We first introduce the notion of nice primal algorithmic map, which plays a central role in the unification and in the simplification of the analysis of most Lagrangian-based methods. Equipped with a nice primal algorithmic map, we then introduce a versatile generic scheme, which allows for the design and analysis of faster Lagrangian (FLAG) methods with new provably sublinear rate of convergence expressed in terms of function values and feasibility violation of the original (nonergodic) generated sequence. To demonstrate the power and versatility of our approach and results, we show that most well-known iconic Lagrangian-based schemes admit a nice primal algorithmic map and hence share the new faster rate of convergence results within their corresponding FLAG.",

keywords = "Lagrangian multiplier methods, alternating direction method of multiplier, augmented Lagrangian, convex composite minimization, fast nonergodic global rate of convergence, nonsmooth optimization, proximal multiplier algorithms",

author = "Shoham Sabach and Marc Teboulle",

note = "Publisher Copyright: {\textcopyright} 2022 Society for Industrial and Applied Mathematics",

year = "2022",

doi = "10.1137/20M1375358",

language = "الإنجليزيّة",

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AU - Teboulle, Marc

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N2 - In this paper, we aim at unifying, simplifying, and improving the convergence rate analysis of Lagrangian-based methods for convex optimization problems. We first introduce the notion of nice primal algorithmic map, which plays a central role in the unification and in the simplification of the analysis of most Lagrangian-based methods. Equipped with a nice primal algorithmic map, we then introduce a versatile generic scheme, which allows for the design and analysis of faster Lagrangian (FLAG) methods with new provably sublinear rate of convergence expressed in terms of function values and feasibility violation of the original (nonergodic) generated sequence. To demonstrate the power and versatility of our approach and results, we show that most well-known iconic Lagrangian-based schemes admit a nice primal algorithmic map and hence share the new faster rate of convergence results within their corresponding FLAG.

AB - In this paper, we aim at unifying, simplifying, and improving the convergence rate analysis of Lagrangian-based methods for convex optimization problems. We first introduce the notion of nice primal algorithmic map, which plays a central role in the unification and in the simplification of the analysis of most Lagrangian-based methods. Equipped with a nice primal algorithmic map, we then introduce a versatile generic scheme, which allows for the design and analysis of faster Lagrangian (FLAG) methods with new provably sublinear rate of convergence expressed in terms of function values and feasibility violation of the original (nonergodic) generated sequence. To demonstrate the power and versatility of our approach and results, we show that most well-known iconic Lagrangian-based schemes admit a nice primal algorithmic map and hence share the new faster rate of convergence results within their corresponding FLAG.

KW - Lagrangian multiplier methods

KW - alternating direction method of multiplier

KW - augmented Lagrangian

KW - convex composite minimization

KW - fast nonergodic global rate of convergence

KW - nonsmooth optimization

KW - proximal multiplier algorithms

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DO - 10.1137/20M1375358

M3 - مقالة

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JO - SIAM Journal on Optimization

JF - SIAM Journal on Optimization

IS - 1

ER -

FASTER LAGRANGIAN-BASED METHODS IN CONVEX OPTIMIZATION

Abstract

Keywords

All Science Journal Classification (ASJC) codes

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