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Power of data in quantum machine learning

Computer Science

Power of data in quantum machine learning

H. Huang, M. Broughton, et al.

This groundbreaking research by Hsin-Yuan Huang and colleagues from Google Quantum AI explores the prospects of quantum advantage in machine learning. It reveals how classical models can effectively tackle classically hard problems, even those posed by quantum tasks, showcasing a significant prediction boost over traditional methods.

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Playback language: English
Abstract
This paper investigates the potential quantum advantage in machine learning tasks where data is provided. The authors demonstrate that classically hard problems can be easily predicted by classical machine learning models trained on data. Using rigorous prediction error bounds, they develop a methodology for assessing quantum advantage, showing that classical models can compete with quantum models even on quantum problems. A projected quantum model is proposed to achieve a quantum speed-up in the fault-tolerant regime. Near-term experiments on engineered datasets (up to 30 qubits) demonstrate a significant prediction advantage over classical models.
Publisher
Nature Communications
Published On
May 11, 2021
Authors
Hsin-Yuan Huang, Michael Broughton, Masoud Mohseni, Ryan Babbush, Sergio Boixo, Hartmut Neven, Jarrod R. McClean
Tags
quantum advantage
machine learning
classical models
prediction error
quantum speed-up
fault-tolerant regime
engineered datasets

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