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MIPLIB 2017: Data-Driven Compilation of the 6th Mixed-Integer Programming Library (2021)

Gleixner, Ambros ; Hendel, Gregor ; Gamrath, Gerald ; [et al.]

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Publication Date: 2022-03-14

Description: We report on the selection process leading to the sixth version of the Mixed Integer Programming Library. Selected from an initial pool of over 5,000 instances, the new MIPLIB 2017 collection consists of 1,065 instances. A subset of 240 instances was specially selected for benchmarking solver performance. For the first time, the compilation of these sets was done using a data-driven selection process supported by the solution of a sequence of mixed integer optimization problems, which encoded requirements on diversity and balancedness with respect to instance features and performance data.

Language: English

Type: article , doc-type:article

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MILP. Try. Repeat. (2021)

Berthold, Timo (Dr.) ; Koch, Thorsten (Prof. Dr.) ; Shinano, Yuji (Dr.)

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Publication Date: 2022-03-14

Language: English

Type: article , doc-type:article

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Solving Previously Unsolved MIP Instances with ParaSCIP on Supercomputers by using up to 80,000 Cores (2020)

Shinano, Yuji ; Achterberg, Tobias ; Berthold, Timo ; [et al.]

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Publication Date: 2021-02-02

Description: Mixed-integer programming (MIP) problem is arguably among the hardest classes of optimization problems. This paper describes how we solved 21 previously unsolved MIP instances from the MIPLIB benchmark sets. To achieve these results we used an enhanced version of ParaSCIP, setting a new record for the largest scale MIP computation: up to 80,000 cores in parallel on the Titan supercomputer. In this paper, we describe the basic parallelization mechanism of ParaSCIP, improvements of the dynamic load balancing and novel techniques to exploit the power of parallelization for MIP solving. We give a detailed overview of computing times and statistics for solving open MIPLIB instances.

Language: English

Type: reportzib , doc-type:preprint

Format: application/pdf

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The confined primal integral: a measure to benchmark heuristic MINLP solvers against global MINLP solvers (2020)

Csizmadia, Zsolt ; Berthold, Timo (Dr.)

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Publication Date: 2022-03-14

Description: It is a challenging task to fairly compare local solvers and heuristics against each other and against global solvers. How does one weigh a faster termination time against a better quality of the found solution? In this paper, we introduce the confined primal integral, a new performance measure that rewards a balance of speed and solution quality. It emphasizes the early part of the solution process by using an exponential decay. Thereby, it avoids that the order of solvers can be inverted by choosing an arbitrarily large time limit. We provide a closed analytic formula to compute the confined primal integral a posteriori and an incremental update formula to compute it during the run of an algorithm. For the latter, we show that we can drop one of the main assumptions of the primal integral, namely the knowledge of a fixed reference solution to compare against. Furthermore, we prove that the confined primal integral is a transitive measure when comparing local solves with different final solution values. Finally, we present a computational experiment where we compare a local MINLP solver that uses certain classes of cutting planes against a solver that does not. Both versions show very different tendencies w.r.t. average running time and solution quality, and we use the confined primal integral to argue which of the two is the preferred setting.

Language: English

Type: article , doc-type:article

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An exploratory computational analysis of dual degeneracy in mixed-integer programming (2020)

Gamrath, Gerald ; Berthold, Timo (Dr.) ; Salvagnin, Domenico

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Publication Date: 2022-03-14

Description: Dual degeneracy, i.e., the presence of multiple optimal bases to a linear programming (LP) problem, heavily affects the solution process of mixed integer programming (MIP) solvers. Different optimal bases lead to different cuts being generated, different branching decisions being taken and different solutions being found by primal heuristics. Nevertheless, only a few methods have been published that either avoid or exploit dual degeneracy. The aim of the present paper is to conduct a thorough computational study on the presence of dual degeneracy for the instances of well-known public MIP instance collections. How many instances are affected by dual degeneracy? How degenerate are the affected models? How does branching affect degeneracy: Does it increase or decrease by fixing variables? Can we identify different types of degenerate MIPs? As a tool to answer these questions, we introduce a new measure for dual degeneracy: the variable–constraint ratio of the optimal face. It provides an estimate for the likelihood that a basic variable can be pivoted out of the basis. Furthermore, we study how the so-called cloud intervals—the projections of the optimal face of the LP relaxations onto the individual variables—evolve during tree search and the implications for reducing the set of branching candidates.

Language: English

Type: article , doc-type:article

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Progress in Mathematical Programming Solvers from 2001 to 2020 (2022)

Koch, Thorsten ; Berthold, Timo ; Pedersen, Jaap ; [et al.]

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Publication Date: 2022-12-08

Description: This study investigates the progress made in LP and MILP solver performance during the last two decades by comparing the solver software from the beginning of the millennium with the codes available today. On average, we found out that for solving LP/MILP, computer hardware got about 20 times faster, and the algorithms improved by a factor of about nine for LP and around 50 for MILP, which gives a total speed-up of about 180 and 1,000 times, respectively. However, these numbers have a very high variance and they considerably underestimate the progress made on the algorithmic side: many problem instances can nowadays be solved within seconds, which the old codes are not able to solve within any reasonable time.

Language: English

Type: reportzib , doc-type:preprint

Format: application/pdf

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