Andreas Wächter scite author profile

We present a primal-dual interior-point algorithm with a filter line-search method for nonlinear programming. Local and global convergence properties of this method were analyzed in previous work. Here we provide a comprehensive description of the algorithm, including the feasibility restoration phase for the filter method, second-order corrections, and inertia correction of the KKT matrix. Heuristics are also considered that allow faster performance. This method has been implemented in the IPOPT code, which we demonstrate in a detailed numerical study based on 954 problems from the CUTEr test set. An evaluation is made of several line-search options, and a comparison is provided with two state-of-the-art interior-point codes for nonlinear programming.

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An algorithmic framework for convex mixed integer nonlinear programs

Bonami¹,

Biegler

Conn³

et al. 2008

Discrete Optimization

700

499

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Branching and bounds tighteningtechniques for non-convex MINLP

Belotti¹,

Lee²,

Liberti³

et al. 2009

Optimization Methods and Software

507

462

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Advances in simultaneous strategies for dynamic process optimization

Biegler

Cervantes

Wächter

2002

Chemical Engineering Science

361

272

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Line Search Filter Methods for Nonlinear Programming: Motivation and Global Convergence

Wächter¹,

Biegler²

2005

SIAM J. Optim.

328

233

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Report for early dissemination of its contents. In view of the transfer of copyright to the outside publisher, its distribution outside of IBM prior to publication should be limited to peer communications and specific requests. After outside publication, requests should be filled only by reprints or legally obtained copies of the article (e.g. , payment of royalties). Copies may be requested from IBM T.

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