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Realization of a quantum neural network using repeat-until-success circuits in a superconducting quantum processor

M. S. Moreira, Gian Giacomo Guerreschi, W. Vlothuizen, J. F. Marques, J. van Straten, Shavindra Premaratne, Xiang Zou, Hany Ali, Nandini Muthusubramanian, Christos Zachariadis, J. van Someren, M. Beekman, N. Haider, Alessandro Bruno, Carmen G. Almudéver, A. Y. Matsuura, L. DiCarlo

2023npj Quantum Information13 citationsDOIOpen Access PDF

Abstract

Abstract Artificial neural networks are becoming an integral part of digital solutions to complex problems. However, employing neural networks on quantum processors faces challenges related to the implementation of non-linear functions using quantum circuits. In this paper, we use repeat-until-success circuits enabled by real-time control-flow feedback to realize quantum neurons with non-linear activation functions. These neurons constitute elementary building blocks that can be arranged in a variety of layouts to carry out deep learning tasks quantum coherently. As an example, we construct a minimal feedforward quantum neural network capable of learning all 2-to-1-bit Boolean functions by optimization of network activation parameters within the supervised-learning paradigm. This model is shown to perform non-linear classification and effectively learns from multiple copies of a single training state consisting of the maximal superposition of all inputs.

Topics & Concepts

Computer scienceArtificial neural networkRealization (probability)Quantum computerQuantumSuperposition principleFeedforward neural networkElectronic circuitQuantum superpositionTopology (electrical circuits)Theoretical computer scienceArtificial intelligenceMathematicsPhysicsQuantum mechanicsStatisticsCombinatoricsQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyQuantum and electron transport phenomena