Optimal Flight-Gate Assignment on a Digital Quantum Computer

Yahui Chai, Lena Funcke, Tobias Hartung, Karl Jansen, Stefan Kühn, Paolo Stornati, and Tobias Stollenwerk

Phys. Rev. Applied 20, 064025 – Published 13 December 2023

Abstract

We investigate the performance of the variational quantum eigensolver (VQE) for the problem of optimal flight-gate assignment. This is a combinatorial-optimization problem that aims at finding an optimal assignment of flights to the gates of an airport, in order to minimize the passenger travel time. To study the problem, we adopt a qubit-efficient binary encoding with a cyclic mapping, which is suitable for a digital quantum computer. Using this encoding in conjunction with the conditional value at risk (CVaR) as an aggregation function, we systematically explore the performance of the approach by classically simulating the CVaR VQE. Our results indicate that the method allows for finding a good solution with high probability and that it significantly outperforms the naive VQE approach. We examine the role of entanglement for the performance and find that ansätze with entangling gates allow for better results than pure product states. Studying the problem for various sizes, our numerical data show that the scaling of the number of cost-function calls for obtaining a good solution is not exponential for the regimes that we investigate in this work.

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Received 27 March 2023
Revised 4 October 2023
Accepted 8 November 2023

DOI:https://doi.org/10.1103/PhysRevApplied.20.064025

Physics Subject Headings (PhySH)

Optimization problems Quantum algorithms Quantum benchmarking

Combinatorics Variational approach

Quantum Information, Science & TechnologyCondensed Matter, Materials & Applied Physics

Authors & Affiliations

Yahui Chai ^1,*, Lena Funcke ^2,3, Tobias Hartung⁴, Karl Jansen¹, Stefan Kühn^1,5, Paolo Stornati ⁶, and Tobias Stollenwerk ⁷

¹Deutsches Elektronen-Synchrotron (DESY), Platanenallee 6, Zeuthen 15738, Germany
²Transdisciplinary Research Area “Building Blocks of Matter and Fundamental Interactions” (TRA Matter) and Helmholtz Institute for Radiation and Nuclear Physics (HISKP), University of Bonn, Nußallee 14–16, Bonn 53115, Germany
³Center for Theoretical Physics, Co-Design Center for Quantum Advantage, and National Science Foundation (NSF) AI Institute for Artificial Intelligence and Fundamental Interactions, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, Massachusetts 02139, USA
⁴Northeastern University—London, Devon House, St Katharine Docks, London E1W 1LP, United Kingdom
⁵Computation-Based Science and Technology Research Center, The Cyprus Institute, 20 Kavafi Street, Nicosia 2121, Cyprus
⁶ICFO—Institut de Ciencies Fotoniques, The Barcelona Institute of Science and Technology, Avinguda Carl Friedrich Gauss 3, Castelldefels (Barcelona) 08860, Spain
⁷Institute for Quantum Computing Analytics (PGI-12), Forschungszentrum Jülich, Wilhelm-Johnen-Straße, Jülich 52428, Germany

^*yahui.chai@desy.de

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Vol. 20, Iss. 6 — December 2023

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Physical Review Applied