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11

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Reconsidering Mixed Integer Programming and MIP-based Hybrids for Scheduling (2012)

Heinz, Stefan ; Beck, J. Christopher

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Publication Date: 2020-08-05

Description: Despite the success of constraint programming (CP) for scheduling, the much wider penetration of mixed integer programming (MIP) technology into business applications means that many practical scheduling problems are being addressed with MIP, at least as an initial approach. Furthermore, there has been impressive and well-documented improvements in the power of generic MIP solvers over the past decade. We empirically demonstrate that on an existing set of resource allocation and scheduling problems standard MIP and CP models are now competitive with the state-of-the-art manual decomposition approach. Motivated by this result, we formulate two tightly coupled hybrid models based on constraint integer programming (CIP) and demonstrate that these models, which embody advances in CP and MIP, are able to out-perform the CP, MIP, and decomposition models. We conclude that both MIP and CIP are technologies that should be considered along with CP for solving scheduling problems.

Language: English

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12

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Solving mixed integer linear and nonlinear problems using the SCIP Optimization Suite (2012)

Berthold, Timo ; Gamrath, Gerald ; Gleixner, Ambros ; [et al.]

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Publication Date: 2022-03-14

Description: This paper introduces the SCIP Optimization Suite and discusses the capabilities of its three components: the modeling language Zimpl, the linear programming solver SoPlex, and the constraint integer programming framework SCIP. We explain how these can be used in concert to model and solve challenging mixed integer linear and nonlinear optimization problems. SCIP is currently one of the fastest non-commercial MIP and MINLP solvers. We demonstrate the usage of Zimpl, SCIP, and SoPlex by selected examples, we give an overview of available interfaces, and outline plans for future development.

Language: English

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13

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SCIP Optimization Suite を利用した混合整数(線形/非線形) 計画問題の解法 (2012)

Berthold, Timo ; Gleixner, Ambros ; Heinz, Stefan ; [et al.]

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Publication Date: 2022-03-14

Description: この論文ではソフトウェア・パッケージSCIP Optimization Suite を紹介し，その３つの構成要素：モデリング言語Zimpl, 線形計画（LP: linear programming) ソルバSoPlex, そして，制約整数計画(CIP: constraint integer programming) に対するソフトウェア・フレームワークSCIP, について述べる．本論文では，この３つの構成要素を利用して，どのようにして挑戦的な混合整数線形計画問題(MIP: mixed integer linear optimization problems) や混合整数非線形計画問題(MINLP: mixed integer nonlinear optimization problems) をモデル化し解くのかを説明する．SCIP は，現在，最も高速なMIP,MINLP ソルバの１つである．いくつかの例により， Zimpl, SCIP, SoPlex の利用方法を示すとともに，利用可能なインタフェースの概要を示す．最後に，将来の開発計画の概要について述べる．

Description: This paper introduces the SCIP Optimization Suite and discusses the capabilities of its three components: the modeling language Zimpl, the linear programming solver SoPlex, and the constraint integer programming framework SCIP. We explain how in concert these can be used to model and solve challenging mixed integer linear and nonlinear optimization problems. SCIP is currently one of the fastest non-commercial MIP and MINLP solvers. We demonstrate the usage of Zimpl, SCIP, and SoPlex by selected examples, we give an overview over available interfaces, and outline plans for future development.

Language: Japanese

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14

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Using dual presolving reductions to reformulate cumulative constraints (2012)

Heinz, Stefan ; Schulz, Jens ; Beck, J. Christopher

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Publication Date: 2020-08-05

Description: Dual presolving reductions are a class of reformulation techniques that remove feasible or even optimal solutions while guaranteeing that at least one optimal solution remains, as long as the original problem was feasible. Presolving and dual reductions are important components of state-of-the-art mixed-integer linear programming solvers. In this paper, we introduce them both as unified, practical concepts in constraint programming solvers. Building on the existing idea of variable locks, we formally define and justify the use of dual information for cumulative constraints during a presolving phase of a solver. In particular, variable locks are used to decompose cumulative constraints, detect irrelevant variables, and infer variable assignments and domain reductions. Since the computational complexity of propagation algorithms typically depends on the number of variables and/or domain size, such dual reductions are a source of potential computational speed-up. Through experimental evidence on resource constrained project scheduling problems, we demonstrate that the conditions for dual reductions are present in well-known benchmark instances and that a substantial proportion of them can be solved to optimality in presolving -- without search. While we consider this result very promising, we do not observe significant change in overall run-time from the use of our novel dual reductions.

Language: English

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15

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Recent improvements using constraint integer programming for resource allocation and scheduling (2013)

Heinz, Stefan ; Ku, Wen-Yang ; Beck, J. Christopher

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Publication Date: 2020-08-05

Description: Recently, we compared the performance of mixed-integer programming (MIP), constraint programming (CP), and constraint integer programming (CIP) to a state-of-the-art logic-based Benders manual decomposition (LBBD) for a resource allocation/scheduling problem. For a simple linear relaxation, the LBBD and CIP models deliver comparable performance with MIP also performing well. Here we show that algorithmic developments in CIP plus the use of an existing tighter relaxation substantially improve one of the CIP approaches. Furthermore, the use of the same relaxation in LBBD and MIP models significantly improves their performance. While such a result is known for LBBD, to the best of our knowledge, the other results are novel. Our experiments show that both CIP and MIP approaches are competitive with LBBD in terms of the number of problems solved to proven optimality, though MIP is about three times slower on average. Further, unlike the LBBD and CIP approaches, the MIP model is able to obtain provably high-quality solutions for all problem instances.

Language: English

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16

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Analyzing the computational impact of MIQCP solver components (2013)

Berthold, Timo ; Gleixner, Ambros ; Heinz, Stefan ; [et al.]

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Publication Date: 2022-03-14

Description: We provide a computational study of the performance of a state-of-the-art solver for nonconvex mixed-integer quadratically constrained programs (MIQCPs). Since successful general-purpose solvers for large problem classes necessarily comprise a variety of algorithmic techniques, we focus especially on the impact of the individual solver components. The solver SCIP used for the experiments implements a branch-and-cut algorithm based on a linear relaxation to solve MIQCPs to global optimality. Our analysis is based on a set of 86 publicly available test instances.

Language: English

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17

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A Constraint Integer Programming Approach for Resource-Constrained Project Scheduling (2010)

Berthold, Timo ; Heinz, Stefan ; Lübbecke, Marco ; [et al.]

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Publication Date: 2022-03-14

Language: English

Type: conferenceobject , doc-type:conferenceObject

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18

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Nonlinear pseudo-Boolean optimization (2009)

Berthold, Timo ; Heinz, Stefan ; Pfetsch, Marc

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Publication Date: 2022-03-14

Language: English

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19

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Counting Solutions of Integer Programs Using Unrestricted Subtree Detection (2008)

Achterberg, Tobias ; Heinz, Stefan ; Koch, Thorsten

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Publication Date: 2021-08-05

Language: English

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20

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MIPLIB 2010 (2011)

Koch, Thorsten ; Achterberg, Tobias ; Andersen, Erling ; [et al.]

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Publication Date: 2022-03-14

Language: English

Type: article , doc-type:article

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