Tensor Ring Optimized Quantum-Enhanced Tensor Neural Networks

TL;DR

This paper introduces TR-QNet, a tensor ring optimized quantum neural network that enhances classification accuracy on multiple datasets using quantum-inspired tensor network techniques and stochastic gradient descent.

Contribution

It proposes a novel multi-layer tensor ring quantum neural network architecture optimized for variational quantum learning, improving classical tensor network training methods.

Findings

Achieves up to 94.5% accuracy on Iris dataset

Demonstrates promising results on MNIST and CIFAR-10 datasets

Shows scalability and potential for large-scale deep learning applications

Abstract

Quantum machine learning researchers often rely on incorporating Tensor Networks (TN) into Deep Neural Networks (DNN) and variational optimization. However, the standard optimization techniques used for training the contracted trainable weights of each model layer suffer from the correlations and entanglement structure between the model parameters on classical implementations. To address this issue, a multi-layer design of a Tensor Ring optimized variational Quantum learning classifier (Quan-TR) comprising cascading entangling gates replacing the fully connected (dense) layers of a TN is proposed, and it is referred to as Tensor Ring optimized Quantum-enhanced tensor neural Networks (TR-QNet). TR-QNet parameters are optimized through the stochastic gradient descent algorithm on qubit measurements. The proposed TR-QNet is assessed on three distinct datasets, namely Iris, MNIST, and CIFAR-10, to demonstrate the enhanced precision achieved for binary classification. On quantum simulations, the proposed TR-QNet achieves promising accuracy of $94.5\%$, $86.16\%$, and $83.54\%$ on the Iris, MNIST, and CIFAR-10 datasets, respectively. Benchmark studies have been conducted on state-of-the-art quantum and classical implementations of TN models to show the efficacy of the proposed TR-QNet. Moreover, the scalability of TR-QNet highlights its potential for exhibiting in deep learning applications on a large scale. The PyTorch implementation of TR-QNet is available on Github:https://github.com/konar1987/TR-QNet/