A data driven Dantzig–Wolfe decomposition framework

We face the issue of finding alternative paradigms for the resolution of generic Mixed Integer Programs (MIP), by considering the perspective option of general purpose solvers which switch to decomposition methods when pertinent. Currently, the main blocking factor in their design is the problem of...

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Vydané v:Mathematical programming computation Ročník 15; číslo 1; s. 153 - 194
Hlavní autori: Basso, Saverio, Ceselli, Alberto
Médium: Journal Article
Jazyk:English
Vydavateľské údaje: Berlin/Heidelberg Springer Berlin Heidelberg 01.03.2023
Springer Nature B.V
Predmet:
Algorithms
Computing time
Dantzig-Wolfe decomposition
Decomposition
Design factors
Full Length Paper
Integer programming
Linear programming
Machine learning
Mathematics
Mathematics and Statistics
Mathematics of Computing
Mixed integer
Operations Research/Decision Theory
Optimization
Theory of Computation
ISSN:1867-2949, 1867-2957
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Shrnutí:We face the issue of finding alternative paradigms for the resolution of generic Mixed Integer Programs (MIP), by considering the perspective option of general purpose solvers which switch to decomposition methods when pertinent. Currently, the main blocking factor in their design is the problem of automatic decomposition of MIPs, that is to produce good MIP decompositions algorithmically, looking only at the algebraic structure of the MIP instance. We propose to employ Dantzig–Wolfe reformulation and machine learning methods to obtain a fully data driven automatic decomposition framework. We also design strategies and introduce algorithmic techniques in order to make such a framework computationally effective. An extensive experimental analysis shows our framework to grant substantial improvements, in terms of both solutions quality and computing time, with respect to state-of-the-art automatic decomposition techniques. It also allows us to gain insights into the relative impact of different techniques. As a side product of our research, we provide a dataset of more than 31 thousand random decompositions of MIPLIB instances, with 121 features, including computations of their root node relaxation.
Bibliografia:ObjectType-Article-1
SourceType-Scholarly Journals-1
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ISSN:1867-2949
1867-2957
DOI:10.1007/s12532-022-00230-4