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Experimental Implementation of a Quantum Autoencoder via Quantum Adders

Experimental Implementation of a Quantum Autoencoder via Quantum Adders Quantum autoencoders allow for reducing the amount of resources in a quantum computation by mapping the original Hilbert space onto a reduced space with the relevant information. Recently, it is proposed to employ approximate quantum adders to implement quantum autoencoders in quantum technologies. Here, the experimental implementation of this proposal in the Rigetti cloud quantum computer is carried out employing up to three qubits. The experimental fidelities are in good agreement with the theoretical prediction, thus proving the feasibility to realize quantum autoencoders via quantum adders in state‐of‐the‐art superconducting quantum technologies. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Advanced Quantum Technologies Wiley

Experimental Implementation of a Quantum Autoencoder via Quantum Adders

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Publisher
Wiley
Copyright
© 2019 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim
eISSN
2511-9044
DOI
10.1002/qute.201800065
Publisher site
See Article on Publisher Site

Abstract

Quantum autoencoders allow for reducing the amount of resources in a quantum computation by mapping the original Hilbert space onto a reduced space with the relevant information. Recently, it is proposed to employ approximate quantum adders to implement quantum autoencoders in quantum technologies. Here, the experimental implementation of this proposal in the Rigetti cloud quantum computer is carried out employing up to three qubits. The experimental fidelities are in good agreement with the theoretical prediction, thus proving the feasibility to realize quantum autoencoders via quantum adders in state‐of‐the‐art superconducting quantum technologies.

Journal

Advanced Quantum TechnologiesWiley

Published: Aug 1, 2019

Keywords: ; ; ;

References

  • Quantum Computation and Quantum Information
    Nielsen, M. A.; Chuang, I. L.
  • States, Effects, and Operations: Fundamental Notions of Quantum Theory
    Kraus, K.
  • Practical Handbook of Genetic Algorithms
    Chambers, L. D.