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Paper detail

Machine Learning of Average Non-Markovianity from Randomized Benchmarking

The presence of correlations in noisy quantum circuits will be an inevitable side effect as quantum devices continue to grow in size and depth. Randomized Benchmarking (RB) is arguably the simplest method to initially assess the overall performance of a quantum device, as well as to pinpoint the presence of temporal-correlations, so-called non-Markovianity; however, when such presence is detected, it hitherto remains a challenge to operationally quantify its features. Here, we demonstrate a method exploiting the power of machine learning with matrix product operators to deduce the minimal average non-Markovianity displayed by the data of a RB experiment, arguing that this can be achieved for any suitable gate set, as well as tailored for most specific-purpose RB techniques.

preprint2022arXivOpen access
Shih-Xian YangPedro Figueroa-RomeroMin-Hsiu Hsieh
quant-ph
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Shih-Xian YangPedro Figueroa-RomeroMin-Hsiu Hsieh

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