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Quantifying Quantum Computational Advantage on a Processor of Ultracold Atoms
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Quantifying Quantum Computational Advantage on a Processor of Ultracold Atoms
Nonequilibrium dynamics of quantum many-body systems is challenging for classical computing, providing opportunities for demonstrating practical quantum computational advantage with analog quantum simulators. Owing to the intimate connection with a random matrix ensemble, it is proposed to be classically intractable to sample the driven thermalized many-body states of a Bose-Hubbard system and further extract multipoint correlations from the output strings for characterizing quantum systems.
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