David E. Bernal scite author profile

In this paper, we present a review of deterministic software for solving convex MINLP problems as well as a comprehensive comparison of a large selection of commonly available solvers. As a test set, we have used all MINLP instances classified as convex in the problem library MINLPLib, resulting in a test set of 335 convex MINLP instances. A summary of the most common methods for solving convex MINLP problems is given to better highlight the differences between the solvers. To show how the solvers perform on problems with different properties, we have divided the test set into subsets based on the continuous relaxation gap, the degree of nonlinearity, and the relative number of discrete variables. The results also provide guidelines on how well suited a specific solver or method is for particular types of MINLP problems.

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Formulating and Solving Routing Problems on Quantum Computers

Harwood

Gambella

Trenev

et al. 2021

IEEE Trans. Quantum Eng.

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The determination of vehicle routes fulfilling connectivity, time, and operational constraints is a well-studied combinatorial optimization problem. The NP-hard complexity of vehicle routing problems has fostered the adoption of tailored exact approaches, matheuristics, and metaheuristics on classical computing devices. The ongoing evolution of quantum computing hardware and the recent advances of quantum algorithms (i.e., VQE, QAOA, ADMM) for mathematical programming make decision-making for routing problems an avenue of research worthwhile to be explored on quantum devices. In this paper, we propose several mathematical formulations for inventory routing cast as vehicle routing with time windows, and comment on their strengths and weaknesses. The optimization models are compared from a quantum computing perspective, specifically with metrics to evaluate the difficulty in solving the underlying quadratic unconstrained binary optimization problems. Finally, the solutions obtained on simulated quantum devices demonstrate the relative benefits of different algorithms, and their robustness when put into practice.

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Optimal design of superstructures for placing units and streams with multiple and ordered available locations. Part I: A new mathematical framework

Liñán

Bernal

Ricardez‐Sandoval

et al. 2020

Computers & Chemical Engineering

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Pyomo.GDP: an ecosystem for logic based modeling and optimization development

et al. 2021

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David E. Bernal

A review and comparison of solvers for convex MINLP

Formulating and Solving Routing Problems on Quantum Computers

Optimal design of superstructures for placing units and streams with multiple and ordered available locations. Part I: A new mathematical framework

Pyomo.GDP: an ecosystem for logic based modeling and optimization development

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