Quantum algorithm for neural network enhanced multi-class parallel classification

TL;DR

This paper introduces a quantum classification algorithm leveraging superposition for efficient multi-class tasks, demonstrating improved accuracy and convergence through quantum neural network-inspired data loading and hybrid optimization.

Contribution

It proposes a novel quantum classification method that uses parameterized quantum circuits and hybrid quantum-classical optimization for multi-class classification.

Findings

Higher classification accuracy in 2-class and 5-class tasks.

Faster convergence compared to classical methods.

Improved expression ability with increased quantum operations.

Abstract

Using the properties of quantum superposition, we propose a quantum classification algorithm to efficiently perform multi-class classification tasks, where the training data are loaded into parameterized operators which are applied to the basis of the quantum state in quantum circuit composed by \emph{sample register} and \emph{label register}, and the parameters of quantum gates are optimized by a hybrid quantum-classical method, which is composed of a trainable quantum circuit and a gradient-based classical optimizer. After several quantum-to-class repetitions, the quantum state is optimal that the state in \emph{sample register} is the same as that in \emph{label register}. %A structure of loading data many times is performed as a quantum version of neural network to improve the expression ability of quantum circuit. For a classification task of $L$-class, the analysis shows that the space and time complexity of the quantum circuit are $O(L*logL)$ and $O(logL)$, respectively. The numerical simulation results of 2-class task and 5-class task show that the proposed algorithm has a higher classification accuracy, faster convergence and higher expression ability. The classification accuracy and the speed of converging can also be improved by increasing the number times of applying multi-qubit controlled operators on the quantum circuit, especially for multiple classes classification.