Limitations of variational quantum algorithms: a quantum optimal transport approach - Equipe Information Quantique et Applications
Article Dans Une Revue PRX Quantum Année : 2023

Limitations of variational quantum algorithms: a quantum optimal transport approach

Résumé

The impressive progress in quantum hardware of the last years has raised the interest of the quantum computing community in harvesting the computational power of such devices. However, in the absence of error correction, these devices can only reliably implement very shallow circuits or comparatively deeper circuits at the expense of a nontrivial density of errors. In this work, we obtain extremely tight limitation bounds for standard NISQ proposals in both the noisy and noiseless regimes, with or without error-mitigation tools. The bounds limit the performance of both circuit model algorithms, such as QAOA, and also continuous-time algorithms, such as quantum annealing. In the noisy regime with local depolarizing noise $p$, we prove that at depths $L={\cal O}(p^{-1})$ it is exponentially unlikely that the outcome of a noisy quantum circuit outperforms efficient classical algorithms for combinatorial optimization problems like Max-Cut. Although previous results already showed that classical algorithms outperform noisy quantum circuits at constant depth, these results only held for the expectation value of the output. Our results are based on newly developed quantum entropic and concentration inequalities, which constitute a homogeneous toolkit of theoretical methods from the quantum theory of optimal mass transport whose potential usefulness goes beyond the study of variational quantum algorithms.
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Dates et versions

hal-03675790 , version 1 (17-01-2023)
hal-03675790 , version 2 (03-10-2023)

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Giacomo de Palma, Milad Marvian, Cambyse Rouzé, Daniel Stilck Franca. Limitations of variational quantum algorithms: a quantum optimal transport approach. PRX Quantum, 2023, 4, pp.010309. ⟨10.1103/PRXQuantum.4.010309⟩. ⟨hal-03675790v2⟩
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