Quantum Learning with Noise and Decoherence: A Robust Quantum Neural Network

Autor: Nguyen, Nam H., Behrman, Elizabeth C., Steck, James E.
Rok vydání: 2016
Předmět:
Zdroj: Quantum Machine Intelligence vol 2 pp 1-15 (2020)
Druh dokumentu: Working Paper
Popis: Noise and decoherence are two major obstacles to the implementation of large-scale quantum computing. Because of the no-cloning theorem, which says we cannot make an exact copy of an arbitrary quantum state, simple redundancy will not work in a quantum context, and unwanted interactions with the environment can destroy coherence and thus the quantum nature of the computation. Because of the parallel and distributed nature of classical neural networks, they have long been successfully used to deal with incomplete or damaged data. In this work, we show that our model of a quantum neural network (QNN) is similarly robust to noise, and that, in addition, it is robust to decoherence. Moreover, robustness to noise and decoherence is not only maintained but improved as the size of the system is increased. Noise and decoherence may even be of advantage in training, as it helps correct for overfitting. We demonstrate the robustness using entanglement as a means for pattern storage in a qubit array. Our results provide evidence that machine learning approaches can obviate otherwise recalcitrant problems in quantum computing.
Comment: submitted for inclusion in Quantum Machine Learning, a book to be published by Cambridge
Databáze: arXiv