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Quantum machine learning for particle physics using a variational quantum classifier

Andrew Blance, Michael Spannowsky

2021Journal of High Energy Physics98 citationsDOIOpen Access PDF

Abstract

A bstract Quantum machine learning aims to release the prowess of quantum computing to improve machine learning methods. By combining quantum computing methods with classical neural network techniques we aim to foster an increase of performance in solving classification problems. Our algorithm is designed for existing and near-term quantum devices. We propose a novel hybrid variational quantum classifier that combines the quantum gradient descent method with steepest gradient descent to optimise the parameters of the network. By applying this algorithm to a resonance search in di-top final states, we find that this method has a better learning outcome than a classical neural network or a quantum machine learning method trained with a non-quantum optimisation method. The classifiers ability to be trained on small amounts of data indicates its benefits in data-driven classification problems.

Topics & Concepts

Quantum machine learningGradient descentArtificial neural networkQuantumComputer scienceArtificial intelligenceClassifier (UML)Quantum computerMachine learningQuantum algorithmAlgorithmPhysicsQuantum mechanicsQuantum Computing Algorithms and ArchitectureQuantum Information and CryptographyNeural Networks and Reservoir Computing
Quantum machine learning for particle physics using a variational quantum classifier | Litcius