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W3195033823 abstract "The prospect of using quantum computers to solve combinatorial optimization problems via the quantum approximate optimization algorithm (QAOA) has attracted considerable interest in recent years. However, a key limitation associated with QAOA is the need to classically optimize over a set of quantum circuit parameters. This classical optimization can have significant associated costs and challenges. Here, we provide an expanded description of Lyapunov control-inspired strategies for quantum optimization, as presented in [Magann et al., Phys. Rev. Lett. 129, 250502 (2022)], that do not require any classical optimization effort. Instead, these strategies utilize feedback from qubit measurements to assign values to the quantum circuit parameters in a deterministic manner, such that the combinatorial optimization problem solution improves monotonically with the quantum circuit depth. Numerical analyses are presented that investigate the utility of these strategies towards MaxCut on weighted and unweighted 3-regular graphs, both in ideal implementations and also in the presence of measurement noise. We also discuss how how these strategies compare with QAOA, how they may be used to seed QAOA optimizations in order to improve performance for near-term applications, and explore connections to quantum annealing." @default.
W3195033823 created "2021-08-30" @default.
W3195033823 creator A5016778113 @default.
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W3195033823 date "2022-12-13" @default.
W3195033823 modified "2023-10-05" @default.
W3195033823 title "Lyapunov-control-inspired strategies for quantum combinatorial optimization" @default.
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W3195033823 doi "https://doi.org/10.1103/physreva.106.062414" @default.
W3195033823 hasPublicationYear "2022" @default.
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