Reservoir computing with a random memristor crossbar array

Author:

Wang Xinxin,Li HuanglongORCID

Abstract

Abstract Physical implementations of reservoir computing (RC) based on the emerging memristors have become promising candidates of unconventional computing paradigms. Traditionally, sequential approaches by time-multiplexing volatile memristors have been prevalent because of their low hardware overhead. However, they suffer from the problem of speed degradation and fall short of capturing the spatial relationship between the time-domain inputs. Here, we explore a new avenue for RC using memristor crossbar arrays with device-to-device variations, which serve as physical random weight matrices of the reservoir layers, enabling faster computation thanks to the parallelism of matrix-vector multiplication as an intensive operation in RC. To achieve this new RC architecture, ultralow-current, self-selective memristors are fabricated and integrated without the need of transistors, showing greater potential of high scalability and three-dimensional integrability compared to the previous realizations. The information processing ability of our RC system is demonstrated in asks of recognizing digit images and waveforms. This work indicates that the ‘nonidealities’ of the emerging memristor devices and circuits are a useful source of inspiration for new computing paradigms.

Funder

National Natural Science Foundation of China

Publisher

IOP Publishing

Reference45 articles.

1. Reservoir computing approaches to recurrent neural network training;Lukoševičius;Comput. Sci. Rev.,2009

2. Adaptive nonlinear system identification with echo state networks;Jaeger,2002

3. Reservoir computing trends;Lukoševičius;KI—Kunstl. Intell.,2012

4. Model-free prediction of large spatiotemporally chaotic systems from data: a reservoir computing approach;Pathak;Phys. Rev. Lett.,2018

5. Memristor-based reservoir computing;Kulkarni,2012

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