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Generalization in quantum machine learning from few training data

Computer Science

Generalization in quantum machine learning from few training data

M. C. Caro, H. Huang, et al.

Explore the groundbreaking findings of Matthias C. Caro, Hsin-Yuan Huang, M. Cerezo, Kunal Sharma, Andrew Sornborger, Lukasz Cincio, and Patrick J. Coles as they unveil how Quantum Machine Learning can significantly enhance generalization performance even with sparse training data. Their study reveals the remarkable scalability of generalization error, offering exciting prospects for quantum applications like unitary compiling and error correction.

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Playback language: English
Abstract
This work provides a comprehensive study of generalization performance in Quantum Machine Learning (QML) with limited training data. The authors show that generalization error scales at worst as T/N (where T is the number of trainable gates and N is the number of training data points), improving to K/N when only K << T gates have significantly changed during optimization. This implies significant speedups for applications like unitary compiling. The study also demonstrates the effectiveness of QML for quantum state classification and highlights potential applications in quantum error correction and dynamical simulation.
Publisher
Nature Communications
Published On
Aug 22, 2022
Authors
Matthias C. Caro, Hsin-Yuan Huang, M. Cerezo, Kunal Sharma, Andrew Sornborger, Lukasz Cincio, Patrick J. Coles
Tags
Quantum Machine Learning
generalization performance
training data
optimization
quantum applications
unitary compiling
quantum state classification

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