106 articles – 48 references  [version française]
 HAL: hal-00421758, version 1
 Mathematical Programming Computations 1, 2-3 (2009) 165-199
 Generating lift-and-project cuts from the LP simplex tableau: open source implementation and testing of new variants
 Egon Balas 1, Pierre Bonami 2
 (2009-09-16)
 Lift-and-project cuts for mixed integer programs (MIP), derived from a disjunction on an integer-constrained fractional variable, were originally (Balas et al. in Math program 58:295–324, 1993) generated by solving a higher-dimensional cut generating linear program (CGLP). Later, a correspondence established (Balas and Perregaard in Math program 94:221–245, 2003) between basic feasible solutions to the CGLP and basic (not necessarily feasible) solutions to the linear programming relaxation LP of the MIP, has made it possible to mimic the process of solving the CGLP through certain pivots in the LP tableau guaranteed to improve the CGLP objective function. This has also led to an alternative interpretation of lift-and-project (L&P) cuts, as mixed integer Gomory cuts from various (in general neither primal nor dual feasible) LP tableaus, guaranteed to be stronger than the one from the optimal tableau. In this paper we analyze the relationship between a pivot in the LP tableau and the (unique) corresponding block pivot (sequence of pivots) in the CGLP tableau. Namely, we show how a single pivot in the LP defines a sequence (potentially as long as the number of variables) of pivots in the CGLP, and we identify this sequence. Also, we give a new procedure for finding in a given LP tableau a pivot that produces the maximum improvement in the CGLP objective (which measures the amount of violation of the resulting cut by the current LP solution). Further, we introduce a procedure called iterative disjunctive modularization. In the standard procedure, pivoting in the LP tableau optimizes the multipliers with which the inequalities on each side of the disjunction are weighted in the resulting cut. Once this solution has been obtained, a strengthening step is applied that uses the integrality constraints (if any) on the variables on each side of the disjunction to improve the cut coefficients by choosing optimal values for the elements of a certain monoid. Iterative disjunctive modularization is a procedure for approximating the simultaneous optimization of both the continuous multipliers and the integer elements of the monoid. All this is discussed in the context of a CGLP with a more general normalization constraint than the standard one used in (Balas and Perregaard in Math program 94:221–245, 2003), and the expressions that describe the above mentioned correspondence are accordingly generalized. Finally, we summarize our extensive computational experience with the above procedures.
 1: Tepper School of Business Carnegie Mellon University 2: Laboratoire d'informatique Fondamentale de Marseille (LIF) CNRS : UMR6166 – Université de la Méditerranée - Aix-Marseille II – Université de Provence - Aix-Marseille I
 Subject : Computer Science/Operations ResearchMathematics/Optimization and Control
 hal-00421758, version 1 http://hal.archives-ouvertes.fr/hal-00421758 oai:hal.archives-ouvertes.fr:hal-00421758 From: Pierre Bonami <> Submitted on: Saturday, 3 October 2009 13:14:41 Updated on: Saturday, 3 October 2009 13:41:06