The supporting hyperplane optimization toolkit for convex MINLP

Andreas Lundell (), Jan Kronqvist () and Tapio Westerlund ()
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Andreas Lundell: Åbo Akademi University
Jan Kronqvist: KTH Royal Institute of Technology
Tapio Westerlund: Åbo Akademi University

Journal of Global Optimization, 2022, vol. 84, issue 1, No 1, 41 pages

Abstract: Abstract In this paper, an open-source solver for mixed-integer nonlinear programming (MINLP) problems is presented. The Supporting Hyperplane Optimization Toolkit (SHOT) combines a dual strategy based on polyhedral outer approximations (POA) with primal heuristics. The POA is achieved by expressing the nonlinear feasible set of the MINLP problem with linearizations obtained with the extended supporting hyperplane (ESH) and extended cutting plane (ECP) algorithms. The dual strategy can be tightly integrated with the mixed-integer programming (MIP) subsolver in a so-called single-tree manner, i.e., only a single MIP optimization problem is solved, where the polyhedral linearizations are added as lazy constraints through callbacks in the MIP solver. This enables the MIP solver to reuse the branching tree in each iteration, in contrast to most other POA-based methods. SHOT is available as a COIN-OR open-source project, and it utilizes a flexible task-based structure making it easy to extend and modify. It is currently available in GAMS, and can be utilized in AMPL, Pyomo and JuMP as well through its ASL interface. The main functionality and solution strategies implemented in SHOT are described in this paper, and their impact on the performance are illustrated through numerical benchmarks on 406 convex MINLP problems from the MINLPLib problem library. Many of the features introduced in SHOT can be utilized in other POA-based solvers as well. To show the overall effectiveness of SHOT, it is also compared to other state-of-the-art solvers on the same benchmark set.

Keywords: Supporting hyperplane optimization toolkit (SHOT); Convex mixed-integer nonlinear programming (MINLP); Multi-tree and single-tree algorithms; Polyhedral outer approximation (POA); Extended supporting hyperplane (ESH) algorithm; Extended cutting plane (ECP) algorithm (search for similar items in EconPapers)
Date: 2022
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DOI: 10.1007/s10898-022-01128-0

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