The decoding of error syndromes of surface codes with classical algorithms may slow down quantum computation. To overcome this problem it is possible to implement decoding algorithms based on artificial neural networks. This work reports a study of decoders based on convolutional neural networks, tested on different code distances and noise models. The results show that decoders based on convolutional neural networks have good performance and can adapt to different noise models. Moreover, explainable machine learning techniques have been applied to the neural network of the decoder to better understand the behaviour and errors of the algorithm, in order to produce a more robust and performing algorithm.
Convolutional neural network based decoders for surface codes / Bordoni, Simone; Giagu, Stefano. - In: QUANTUM INFORMATION PROCESSING. - ISSN 1570-0755. - 22:3(2023). [10.1007/s11128-023-03898-2]
Convolutional neural network based decoders for surface codes
Simone BordoniPrimo
;Stefano GiaguUltimo
Project Administration
2023
Abstract
The decoding of error syndromes of surface codes with classical algorithms may slow down quantum computation. To overcome this problem it is possible to implement decoding algorithms based on artificial neural networks. This work reports a study of decoders based on convolutional neural networks, tested on different code distances and noise models. The results show that decoders based on convolutional neural networks have good performance and can adapt to different noise models. Moreover, explainable machine learning techniques have been applied to the neural network of the decoder to better understand the behaviour and errors of the algorithm, in order to produce a more robust and performing algorithm.| File | Dimensione | Formato | |
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Bordoni_Convolutional_2023.pdf
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