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Boaz Barak | Xun Gao | Chi-Ning Chou | B. Barak | Chi-Ning Chou | X. Gao
[1] Nicholas Hunter-Jones. Unitary designs from statistical mechanics in random quantum circuits. , 2019, 1905.12053.
[2] L. Duan,et al. Efficient classical simulation of noisy quantum computation , 2018, 1810.03176.
[3] Ashley Montanaro,et al. Achieving quantum supremacy with sparse and noisy commuting quantum computations , 2016, 1610.01808.
[4] F. Brandão,et al. Efficient classical simulation of random shallow 2D quantum circuits , 2019, ArXiv.
[5] SCOTT AARONSON,et al. On the Classical Hardness of Spoofing Linear Cross-Entropy Benchmarking , 2019, ArXiv.
[6] Yiqing Zhou,et al. What limits the simulation of quantum computers , 2020 .
[7] Christopher T. Chubb,et al. Hand-waving and interpretive dance: an introductory course on tensor networks , 2016, 1603.03039.
[8] Ashley Montanaro,et al. Average-case complexity versus approximate simulation of commuting quantum computations , 2015, Physical review letters.
[9] Guifré Vidal. Efficient simulation of one-dimensional quantum many-body systems. , 2004, Physical review letters.
[10] Travis S. Humble,et al. Quantum supremacy using a programmable superconducting processor , 2019, Nature.
[11] C. Beenakker,et al. Diagrammatic method of integration over the unitary group, with applications to quantum transport in mesoscopic systems , 1996, cond-mat/9604059.
[12] Xun Gao,et al. Can Chaotic Quantum Circuits Maintain Quantum Supremacy under Noise , 2017, 1706.08913.