Dr Nicholas Chancellor nicholas.chancellor@durham.ac.uk
Teaching Fellow QO
Fluctuation-guided search in quantum annealing
Chancellor, Nicholas
Authors
Abstract
Quantum annealing has great promise in leveraging quantum mechanics to solve combinatorial optimization problems. However, to realize this promise to its fullest extent we must appropriately leverage the underlying physics. In this spirit, we examine how the well-known tendency of quantum annealers to seek solutions where more quantum fluctuations are allowed can be used to trade off optimality of the solution to a synthetic problem for the ability to have a more flexible solution, where some variables can be changed at little or no cost. We demonstrate this tradeoff experimentally using the reverse annealing feature a D-Wave Systems quantum processing unit for both problems composed of all binary variables, and those containing some higher-thanbinary discrete variables. We further demonstrate how local controls on the qubits can be used to control the levels of fluctuations and guide the search. We discuss places where leveraging this tradeoff could be practically important, namely in hybrid algorithms where some penalties cannot be directly implemented on the annealer and provide some proof-of-concept evidence of how these algorithms could work.
Citation
Chancellor, N. (2020). Fluctuation-guided search in quantum annealing. Physical Review A, 102(6), Article 062606. https://doi.org/10.1103/physreva.102.062606
| Journal Article Type | Article |
|---|---|
| Acceptance Date | Nov 9, 2020 |
| Online Publication Date | Dec 9, 2020 |
| Publication Date | 2020 |
| Deposit Date | Mar 31, 2021 |
| Publicly Available Date | Mar 31, 2021 |
| Journal | Physical Review A |
| Print ISSN | 2469-9926 |
| Electronic ISSN | 2469-9934 |
| Publisher | American Physical Society |
| Peer Reviewed | Peer Reviewed |
| Volume | 102 |
| Issue | 6 |
| Article Number | 062606 |
| DOI | https://doi.org/10.1103/physreva.102.062606 |
| Public URL | https://durham-repository.worktribe.com/output/1244903 |
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©2020 American Physical Society
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