A computational study of a gradient-based log-barrier algorithm for a class of large-scale SDPs

A computational study of a gradient-based log-barrier algorithm for a class of large-scale SDPs

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Article ID: iaor20041173
Country: Germany
Volume: 95
Issue: 2
Start Page Number: 359
End Page Number: 379
Publication Date: Jan 2003
Journal: Mathematical Programming
Authors: , ,
Abstract:

The authors of this paper recently introduced a transformation that converts a class of semidefinite programs (SDPs) into nonlinear optimization problems free of matrix-valued constraints and variables. This transformation enables the application of nonlinear optimization techniques to the solution of certain SDPs that are too large for conventional interior-point methods to handle efficiently. Based on the transformation, we proposed a globally convergent, first-order (i.e., gradient-based) log-barrier algorithm for solving a class of linear SDPs. In this paper, we discuss an efficient implementation of the proposed algorithm and report computational results on semidefinite relaxations of three types of combinatorial optimization problems. Our results demonstrate that the proposed algorithm is indeed capable of solving large-scale SDPs and is particularly effective for problems with a large number of constraints.

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