In this paper, a methodology for testing the accuracy and strength of cut generators for mixed-integer linear programming is presented. The procedure amounts to random diving towards a feasible solution, recording several kinds of failures. This allows for a ranking of the accuracy of the generators. Then, for generators deemed to have similar accuracy, statistical tests are performed to compare their relative strength. An application on eight Gomory cut generators and six Reduce-and-Split cut generators is given. The problem of constructing benchmark instances for which feasible solutions can be obtained is also addressed.
We develop a computational method for computing valid inequalities for any mixed-integer set PJ. Our...
We investigate the use of cutting planes for integer programs with general integer variables. We sho...
We investigate the use of Gomory's mixed integer cuts within a branch-and-cut framework. It has...
Gomory mixed-integer cuts are one of the key components in Branch-and-Cut solvers for mixed-integer ...
Mixed-integer Gomory cuts have become an integral part of state-of-the-art software for solving mixe...
Mixed-integer Gomory cuts have become an integral part of state-of-the-art software for solving mixe...
Gomory mixed-integer cuts (GMICs) are widely used in modern branch-and-cut codes for the solution of...
Gomory Mixed-Integer Cuts (GMICs) are widely used in modern branch-and-cut codes for the solution of...
Split cuts represent the most widely used class of cutting planes currently employed by state-of-the...
This tutorial presents a theory of valid inequalities for mixed integer linear sets. It introduces t...
Abstract We discuss the variability in the performance of multiple runs of branchand-cut mixed integ...
This survey presents cutting planes that are useful or potentially useful in solving mixed integer p...
This survey presents cutting planes that are useful or potentially useful in solving mixed integer p...
Cut selection is a subroutine used in all modern mixed-integer linear programming solvers with the g...
This thesis focuses on the derivation of improved computational schemes for the optimization of mixe...
We develop a computational method for computing valid inequalities for any mixed-integer set PJ. Our...
We investigate the use of cutting planes for integer programs with general integer variables. We sho...
We investigate the use of Gomory's mixed integer cuts within a branch-and-cut framework. It has...
Gomory mixed-integer cuts are one of the key components in Branch-and-Cut solvers for mixed-integer ...
Mixed-integer Gomory cuts have become an integral part of state-of-the-art software for solving mixe...
Mixed-integer Gomory cuts have become an integral part of state-of-the-art software for solving mixe...
Gomory mixed-integer cuts (GMICs) are widely used in modern branch-and-cut codes for the solution of...
Gomory Mixed-Integer Cuts (GMICs) are widely used in modern branch-and-cut codes for the solution of...
Split cuts represent the most widely used class of cutting planes currently employed by state-of-the...
This tutorial presents a theory of valid inequalities for mixed integer linear sets. It introduces t...
Abstract We discuss the variability in the performance of multiple runs of branchand-cut mixed integ...
This survey presents cutting planes that are useful or potentially useful in solving mixed integer p...
This survey presents cutting planes that are useful or potentially useful in solving mixed integer p...
Cut selection is a subroutine used in all modern mixed-integer linear programming solvers with the g...
This thesis focuses on the derivation of improved computational schemes for the optimization of mixe...
We develop a computational method for computing valid inequalities for any mixed-integer set PJ. Our...
We investigate the use of cutting planes for integer programs with general integer variables. We sho...
We investigate the use of Gomory's mixed integer cuts within a branch-and-cut framework. It has...