Applications and experimental realizations of quantum generative adversarial networks
Invited
Abstract
Quantum generative adversarial networks (qGANs) represent a potentially powerful quantum machine learning tool for the analysis of quantum data and quantum processes. This talk presents a review of the theory of quantum generative adversarial networks, describes their application to pattern recognition and to quantum state and process tomography, and summarizes the current experimental state of the art for implementing qGANs. We introduce a novel quantum generative network model based on the recently proposed quantum Wasserstein-1 distance.
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Presenters
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Seth Lloyd
Massachusetts Institute of Technology, Massachusetts Institute of Technology MIT, MIT
Authors
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Seth Lloyd
Massachusetts Institute of Technology, Massachusetts Institute of Technology MIT, MIT
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Giacomo De Palma
Massachusetts Institute of Technology MIT
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Bobak Kiani
Massachusetts Institute of Technology MIT
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Milad Marvian
Physics/Electrical Engineering, University of New Mexico, MIT, MIT Lincoln Laboratory