期刊
PHYSICAL REVIEW APPLIED
卷 19, 期 3, 页码 -出版社
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevApplied.19.034010
关键词
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A collective outcome or decision from a crowd is often superior to that of a single expert, according to our study on quantum machine learning. We compare the performance of a highly trained quantum network (expert) with several poorly trained ones (crowd) for tasks like quantum tomography and entanglement recognition. Additionally, we demonstrate enhanced performance from a temporal crowd using time multiplexing on a single poorly trained quantum network. Our findings reveal that, given the same training resources, the crowd outperforms the expert by a definitive margin.
A collective outcome or decision from a crowd often prevails over that of a single expert. Here we study this phenomenon through the lens of quantum machine learning. We compare the performance of an expert, a highly trained quantum network, to a crowd, several poorly trained ones, for quantum information processing tasks such as quantum tomography and entanglement recognition. We also show quantum-enhanced performance from a temporal crowd by using time multiplexing on a single poorly trained quantum network. Given the same resources for training, we show that the crowd outperforms the expert by a definitive margin.
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