Quantum autoencoders with enhanced data encoding

Mach. Learn. Sci. Technol. Pub Date : 2020-10-13 DOI:10.1088/2632-2153/ac0616
Carlos Bravo-Prieto
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引用次数: 30

Abstract

We present the enhanced feature quantum autoencoder, or EF-QAE, a variational quantum algorithm capable of compressing quantum states of different models with higher fidelity. The key idea of the algorithm is to define a parameterized quantum circuit that depends upon adjustable parameters and a feature vector that characterizes such a model. We assess the validity of the method in simulations by compressing ground states of the Ising model and classical handwritten digits. The results show that EF-QAE improves the performance compared to the standard quantum autoencoder using the same amount of quantum resources, but at the expense of additional classical optimization. Therefore, EF-QAE makes the task of compressing quantum information better suited to be implemented in near-term quantum devices.
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增强数据编码的量子自动编码器
我们提出了增强型特征量子自编码器(enhanced feature quantum autoencoder, EF-QAE),这是一种变分量子算法,能够以更高的保真度压缩不同模型的量子态。该算法的关键思想是定义一个参数化的量子电路,该电路依赖于可调参数和表征该模型的特征向量。我们通过压缩伊辛模型和经典手写数字的基态来评估该方法在模拟中的有效性。结果表明,在使用相同量子资源的情况下,EF-QAE比标准量子自编码器的性能有所提高,但代价是额外的经典优化。因此,EF-QAE使得压缩量子信息的任务更适合在近期量子器件中实现。
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Mach. Learn. Sci. Technol.
Mach. Learn. Sci. Technol.
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