Integrated photonic reservoir computing based on hierarchical time-multiplexing structure | Zendy

Hong Zhang | Zendy; Xue Feng | Zendy; Boxun Li | Zendy; Yu Wang | Zendy; Kaiyu Cui | Zendy; Fang Liu | Zendy; Weibei Dou | Zendy; Yidong Huang | Zendy

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Integrated photonic reservoir computing based on hierarchical time-multiplexing structure

Author(s) -

Hong Zhang,

Xue Feng,

Boxun Li,

Yu Wang,

Kaiyu Cui,

Fang Liu,

Weibei Dou,

Yidong Huang

Publication year - 2014

Publication title -

optics express

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.394

H-Index - 271

ISSN - 1094-4087

DOI - 10.1364/oe.22.031356

Subject(s) - multiplexing , reservoir computing , photonics , computer science , chaotic , splitter , interference (communication) , optics , electronic engineering , physics , telecommunications , engineering , artificial intelligence , artificial neural network , channel (broadcasting) , recurrent neural network

An integrated photonic reservoir computing (RC) based on hierarchical time-multiplexing structure is proposed by numerical simulations. A micro-ring array (MRA) is employed as a typical time delay implementation of RC. At the output port of the MRA, a secondary time-multiplexing is achieved by multi-mode interference (MMI) splitter and delay line array. This hierarchical time-multiplexing structure can ensure a large reservoir size with fast processing speed. Simulation results indicate that the proposed RC system yields better performance than previously reported ones. The achieved normalized mean square error between the system output and target sequence are 0.5% and 2.7% for signal classification and chaotic time series prediction, respectively, while the sample rate is as high as 1.3 Gbps.

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