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Solving Open MIP Instances with ParaSCIP on Supercomputers using up to 80,000 Cores (2015)

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

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Publication Date: 2022-03-14

Description: This paper describes how we solved 12 previously unsolved mixed-integer program- ming (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

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2

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Solving Open MIP Instances with ParaSCIP on Supercomputers using up to 80,000 Cores (2016)

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

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Details

Publication Date: 2022-03-14

Description: This paper describes how we solved 12 previously unsolved mixed-integer program- ming (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: conferenceobject , doc-type:conferenceObject

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3

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Presolve Reductions in Mixed Integer Programming (2019)

Achterberg, Tobias ; Bixby, Robert E. ; Gu, Zonghao ; [et al.]

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Publication Date: 2021-08-05

Description: Mixed integer programming has become a very powerful tool for modeling and solving real-world planning and scheduling problems, with the breadth of applications appearing to be almost unlimited. A critical component in the solution of these mixed-integer programs is a set of routines commonly referred to as presolve. Presolve can be viewed as a collection of preprocessing techniques that reduce the size of and, more importantly, improve the ``strength'' of the given model formulation, that is, the degree to which the constraints of the formulation accurately describe the underlying polyhedron of integer-feasible solutions. As our computational results will show, presolve is a key factor in the speed with which we can solve mixed-integer programs, and is often the difference between a model being intractable and solvable, in some cases easily solvable. In this paper we describe the presolve functionality in the Gurobi commercial mixed-integer programming code. This includes an overview, or taxonomy of the different methods that are employed, as well as more-detailed descriptions of several of the techniques, with some of them appearing, to our knowledge, for the first time in the literature.

Language: English

Type: article , doc-type:article

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4

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Presolve Reductions in Mixed Integer Programming (2016)

Achterberg, Tobias ; Bixby, Robert E. ; Gu, Zonghao ; [et al.]

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Publication Date: 2021-08-05

Description: Mixed integer programming has become a very powerful tool for modeling and solving real-world planning and scheduling problems, with the breadth of applications appearing to be almost unlimited. A critical component in the solution of these mixed-integer programs is a set of routines commonly referred to as presolve. Presolve can be viewed as a collection of preprocessing techniques that reduce the size of and, more importantly, improve the ``strength'' of the given model formulation, that is, the degree to which the constraints of the formulation accurately describe the underlying polyhedron of integer-feasible solutions. As our computational results will show, presolve is a key factor in the speed with which we can solve mixed-integer programs, and is often the difference between a model being intractable and solvable, in some cases easily solvable. In this paper we describe the presolve functionality in the Gurobi commercial mixed-integer programming code. This includes an overview, or taxonomy of the different methods that are employed, as well as more-detailed descriptions of several of the techniques, with some of them appearing, to our knowledge, for the first time in the literature.

Language: English

Type: reportzib , doc-type:preprint

Format: application/pdf

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5

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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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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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