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8 March 2023 Benchmarking the recursive quantum approximate optimization algorithm
Paige Frederick, Rich Rines, F. T. Chong, Pranav Gokhale
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Proceedings Volume 12446, Quantum Computing, Communication, and Simulation III; 1244609 (2023) https://doi.org/10.1117/12.2648434
Event: SPIE Quantum West, 2023, San Francisco, California, United States
Abstract
Recent results on the Quantum Approximate Optimization Algorithm (QAOA) have cast pessimism on its potential to exhibit practical quantum speedups. For instance, QAOA’s locality limits its performance on tasks such as coloring bipartite graphs—which is easy for classical methods. Motivated by these limitations, the Recursive QAOA was introduced to overcome the locality and symmetry of QAOA. Despite being more powerful than QAOA, RQAOA is fully classically simulable at level-1 depth (p = 1). We report results on RQAOA in this classically simulable regime, benchmarked on random Quantum Unconstrainted Binary Optimization (QUBO) problems with up to 100 variables. We find that RQAOA generally matches the performance of classical simulated annealing and significantly outperforms ordinary QAOA.
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Paige Frederick, Rich Rines, F. T. Chong, and Pranav Gokhale "Benchmarking the recursive quantum approximate optimization algorithm", Proc. SPIE 12446, Quantum Computing, Communication, and Simulation III, 1244609 (8 March 2023); https://doi.org/10.1117/12.2648434
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KEYWORDS
Quantum approximate optimization
Binary data
Quantum encoding
Algorithms
Annealing
Quantum communications
Quantum ground state
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