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Trapped Ion Quantum Computing Quantum Foundations

Interpretable Quantum Advantage in Neural Sequence Learning

arXiv
Authors: Eric R. Anschuetz, Hong-Ye Hu, Jin-Long Huang, Xun Gao

Year

2022

Paper ID

58858

Status

Preprint

Abstract Read

~2 min

Abstract Words

185

Citations

N/A

Abstract

Quantum neural networks have been widely studied in recent years, given their potential practical utility and recent results regarding their ability to efficiently express certain classical data. However, analytic results to date rely on assumptions and arguments from complexity theory. Due to this, there is little intuition as to the source of the expressive power of quantum neural networks or for which classes of classical data any advantage can be reasonably expected to hold. Here, we study the relative expressive power between a broad class of neural network sequence models and a class of recurrent models based on Gaussian operations with non-Gaussian measurements. We explicitly show that quantum contextuality is the source of an unconditional memory separation in the expressivity of the two model classes. Additionally, as we are able to pinpoint quantum contextuality as the source of this separation, we use this intuition to study the relative performance of our introduced model on a standard translation data set exhibiting linguistic contextuality. In doing so, we demonstrate that our introduced quantum models are able to outperform state of the art classical models even in practice.

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  • This paper contributes to the Quantum Foundations research area in the Quantum Articles archive.
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  • Quantum neural networks have been widely studied in recent years, given their potential practical utility and recent results regarding their ability to efficiently express...

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