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Universal discriminative quantum neural networks

Hongxiang Chen, Leonard Wossnig, Simone Severini, Hartmut Neven, Morteza Mohseni

2020Quantum Machine Intelligence88 citationsDOIOpen Access PDF

Abstract

Abstract Recent results have demonstrated the successful applications of quantum-classical hybrid methods to train quantum circuits for a variety of machine learning tasks. A natural question to ask is consequentially whether we can also train such quantum circuits to discriminate quantum data, i.e., perform classification on data stored in form of quantum states. Although quantum mechanics fundamentally forbids deterministic discrimination of non-orthogonal states, we show in this work that it is possible to train a quantum circuit to discriminate such data with a trade-off between minimizing error rates and inconclusiveness rates of the classification tasks. Our approach achieves at the same time a performance which is close to the theoretically optimal values and a generalization ability to previously unseen quantum data. This generalization power hence distinguishes our work from previous circuit optimization results and furthermore provides an example of a quantum machine learning task that has inherently no classical analogue.

Topics & Concepts

Quantum circuitComputer scienceQuantum processQuantum phase estimation algorithmQuantum algorithmQuantumQuantum networkQuantum informationQuantum operationQuantum computerOpen quantum systemAlgorithmMathematicsTopology (electrical circuits)Theoretical computer scienceQuantum dynamicsQuantum mechanicsPhysicsCombinatoricsQuantum Information and CryptographyQuantum Computing Algorithms and ArchitectureNeural Networks and Reservoir Computing
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