Scalable and Flexible Classical Shadow Tomography with Tensor Networks

Akhtar, Ahmed A.; Hu, Hong-Ye; You, Yi-Zhuang

doi:10.22331/q-2023-06-01-1026

Cited by 21 publications

(1 citation statement)

References 41 publications

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“…Also, another pressing issue is to go beyond single-qubit Pauli measurements to gain advantages from quantum entanglement. Recent advancements in shallow-circuit classical shadow tomography [82][83][84][85][86] have made promising strides. It allows the extension of random measurements to commuting multi-qubit observables, thereby improving measurement efficiency.…”

Section: Future Directionsmentioning

confidence: 99%

Observing Schrödinger’s cat with artificial intelligence: emergent classicality from information bottleneck

Zhang,

You

2024

Mach. Learn.: Sci. Technol.

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We train a generative language model on the randomized local measurement data collected from Schrödinger’s cat quantum state. We demonstrate that the classical reality emerges in the language model due to the information bottleneck: although our training data contains the full quantum information about Schrödinger’s cat, a weak language model can only learn to capture the classical reality of the cat from the data. We identify the quantum-classical boundary in terms of both the size of the quantum system and the information processing power of the classical intelligent agent, which indicates that a stronger agent can realize more quantum nature in the environmental noise surrounding the quantum system. Our approach opens up a new avenue for using the big data generated on noisy intermediate-scale quantum (NISQ) devices to train generative models for representation learning of quantum operators, which might be a step toward our ultimate goal of creating an artificial intelligence quantum physicist.

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Section: Future Directionsmentioning

confidence: 99%

Observing Schrödinger’s cat with artificial intelligence: emergent classicality from information bottleneck

Zhang,

You

2024

Mach. Learn.: Sci. Technol.

Self Cite

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Learning properties of quantum states without the IID assumption

Fawzi,

Kueng,

Markham

et al. 2024

Nat Commun

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We develop a framework for learning properties of quantum states beyond the assumption of independent and identically distributed (i.i.d.) input states. We prove that, given any learning problem (under reasonable assumptions), an algorithm designed for i.i.d. input states can be adapted to handle input states of any nature, albeit at the expense of a polynomial increase in training data size (aka sample complexity). Importantly, this polynomial increase in sample complexity can be substantially improved to polylogarithmic if the learning algorithm in question only requires non-adaptive, single-copy measurements. Among other applications, this allows us to generalize the classical shadow framework to the non-i.i.d. setting while only incurring a comparatively small loss in sample efficiency. We leverage permutation invariance and randomized single-copy measurements to derive a new quantum de Finetti theorem that mainly addresses measurement outcome statistics and, in turn, scales much more favorably in Hilbert space dimension.

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Measuring energy by measuring any other observable

Šafránek

Rosa

2023

Phys. Rev. A

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Scalable and Flexible Classical Shadow Tomography with Tensor Networks

Cited by 21 publications

References 41 publications

Observing Schrödinger’s cat with artificial intelligence: emergent classicality from information bottleneck

Observing Schrödinger’s cat with artificial intelligence: emergent classicality from information bottleneck

Learning properties of quantum states without the IID assumption

Measuring energy by measuring any other observable

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