Challenges and Opportunities in Quantum Optimization
Abstract
Recent advances in quantum computers are demonstrating the ability to solve problems at a scale beyond brute force classical simulation. As such, a widespread interest in quantum algorithms has developed in many areas, with optimization being one of the most pronounced domains. Across computer science and physics, there are a number of different approaches for major classes of optimization problems, such as combinatorial optimization, convex optimization, non-convex optimization, and stochastic extensions. This work draws on multiple approaches to study quantum optimization. Provably exact versus heuristic settings are first explained using computational complexity theory - highlighting where quantum advantage is possible in each context. Then, the core building blocks for quantum optimization algorithms are outlined to subsequently define prominent problem classes and identify key open questions that, if answered, will advance the field. The effects of scaling relevant problems on noisy quantum devices are also outlined in detail, alongside meaningful benchmarking problems. We underscore the importance of benchmarking by proposing clear metrics to conduct appropriate comparisons with classical optimization techniques. Lastly, we highlight two domains - finance and sustainability - as rich sources of optimization problems that could be used to benchmark, and eventually validate, the potential real-world impact of quantum optimization.
Cite
@article{arxiv.2312.02279,
title = {Challenges and Opportunities in Quantum Optimization},
author = {Amira Abbas and Andris Ambainis and Brandon Augustino and Andreas Bärtschi and Harry Buhrman and Carleton Coffrin and Giorgio Cortiana and Vedran Dunjko and Daniel J. Egger and Bruce G. Elmegreen and Nicola Franco and Filippo Fratini and Bryce Fuller and Julien Gacon and Constantin Gonciulea and Sander Gribling and Swati Gupta and Stuart Hadfield and Raoul Heese and Gerhard Kircher and Thomas Kleinert and Thorsten Koch and Georgios Korpas and Steve Lenk and Jakub Marecek and Vanio Markov and Guglielmo Mazzola and Stefano Mensa and Naeimeh Mohseni and Giacomo Nannicini and Corey O'Meara and Elena Peña Tapia and Sebastian Pokutta and Manuel Proissl and Patrick Rebentrost and Emre Sahin and Benjamin C. B. Symons and Sabine Tornow and Victor Valls and Stefan Woerner and Mira L. Wolf-Bauwens and Jon Yard and Sheir Yarkoni and Dirk Zechiel and Sergiy Zhuk and Christa Zoufal},
journal= {arXiv preprint arXiv:2312.02279},
year = {2024}
}
Comments
Updated title to match journal version