A Newton-CG Augmented Lagrangian Method for Semidefinite Programming

Author(s)

Toh, Kim Chuan; Zhao, Xin-Yuan; Sun, Defeng

Alternative title

A NEWTON-CG AUGMENTED LAGRANGIAN METHOD FOR SEMIDEFINITE PROGRAMMING

Abstract

We consider a Newton-CG augmented Lagrangian method for solving semidefinite programming (SDP) problems from the perspective of approximate semismooth Newton methods. In order to analyze the rate of convergence of our proposed method, we characterize the Lipschitz continuity of the corresponding solution mapping at the origin. For the inner problems, we show that the positive definiteness of the generalized Hessian of the objective function in these inner problems, a key property for ensuring the efficiency of using an inexact semismooth Newton-CG method to solve the inner problems, is equivalent to the constraint nondegeneracy of the corresponding dual problems. Numerical experiments on a variety of large-scale SDP problems with the matrix dimension n up to 4,110 and the number of equality constraints m up to 2,156,544 show that the proposed method is very efficient. We are also able to solve the SDP problem fap36 (with n=4,110 and m=1,154,467) in the Seventh DIMACS Implementation Challenge much more accurately than in previous attempts.

Date issued

2010-01

URI

http://hdl.handle.net/1721.1/58308

Department

Singapore-MIT Alliance in Research and Technology (SMART)

Journal

SIAM Journal on Optimization

Publisher

Society for Industrial and Applied Mathematics

Citation

Zhao, Xin-Yuan, Defeng Sun, and Kim-Chuan Toh. "A Newton-CG Augmented Lagrangian Method for Semidefinite Programming." SIAM J. Optim. Volume 20, Issue 4, pp. 1737-1765 (2010) ©2010 Society for Industrial and Applied Mathematics.

Version: Final published version

ISSN

1052-6234

1095-7189