With the beginning of the noisy intermediate-scale quantum (NISQ) era, quantum neural network (QNN) has recently emerged as a solution for the problems that classical neural networks cannot solve. Moreover, QCNN is attracting attention as the next generation of QNN because it can process high-dimensional vector input. However, due to the nature of quantum computing, it is difficult for the classical QCNN to extract a sufficient number of features. Motivated by this, we propose a new version of QCNN, named scalable quantum convolutional neural network (sQCNN). In addition, using the fidelity of QC, we propose an sQCNN training algorithm named reverse fidelity training (RF-Train) that maximizes the performance of sQCNN.
翻译:量子神经网络(QNN)最近成为传统神经网络无法解决的问题的解决方案。 此外,QCNN正在作为下一代QNN受到关注,因为QNN可以处理高维矢量输入。然而,由于量子计算的性质,传统QCNN很难提取足够数量的特征。为此,我们提出了名为可缩放量子神经网络(sQN)的QCNN新版本。此外,我们利用QC的忠实性,提出了名为反向忠诚培训(RF-Train)的SQCNN培训算法,以最大限度地提高SCNN的性能。
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