Xiao-Yue Xu scite author profile

Training a quantum machine learning model generally requires a large labeled dataset, which incurs high labeling and computational costs. To reduce such costs, a selective training strategy, called active learning (AL), chooses only a subset of the original dataset to learn while maintaining the trained model’s performance. Here, we design and implement two AL-enpowered variational quantum classiﬁers to investigate the potential applications and eﬀectiveness of AL in quantum machine learning. Firstly, we build a programmable free-space photonic quantum processor, which enables the programmed implementation of various hybrid quantum-classical computing algorithms. Then, we code the designed variational quantum classiﬁer with AL into the quantum processor, and execute comparative tests for the classiﬁers with and without the AL strategy. The results validate the great advantage of AL in quantum machine learning, as it saves at most 85% labeling eﬀorts and 91.6% percent computational eﬀorts compared to the training without AL on a data classiﬁcation task. Our results inspire AL’s further applications in large-scale quantum machine learning to drastically reduce training data and speed up training, underpinning the exploration of practical quantum advantages in quantum physics or real-world applications.

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Xiao-Yue Xu

Near-term quantum computing techniques: Variational quantum algorithms, error mitigation, circuit compilation, benchmarking and classical simulation

Noise-resistant quantum state compression readout

Evaluating the resilience of variational quantum algorithms to leakage noise

Active learning on a programmable photonic quantum processor

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