Experimental Demonstration of Reservoir Computing with Self‐Assembled Percolating Networks of Nanoparticles

Author:

Mallinson Joshua B.1ORCID,Steel Jamie K.1,Heywood Zachary E.12ORCID,Studholme Sofie J.1ORCID,Bones Philip J.2ORCID,Brown Simon A.1ORCID

Affiliation:

1. The MacDiarmid Institute for Advanced Materials and Nanotechnology School of Physical and Chemical Sciences Te Kura Matū University of Canterbury Private Bag 4800 Christchurch 8140 New Zealand

2. Electrical and Computer Engineering University of Canterbury Private Bag 4800 Christchurch 8140 New Zealand

Abstract

AbstractThe complex self‐assembled network of neurons and synapses that comprises the biological brain enables natural information processing with remarkable efficiency. Percolating networks of nanoparticles (PNNs) are complex self‐assembled nanoscale systems that have been shown to possess many promising brain‐like attributes and which are therefore appealing systems for neuromorphic computation. Here experiments are performed that show that PNNs can be utilized as physical reservoirs within a nanoelectronic reservoir computing framework and demonstrate successful computation for several benchmark tasks (chaotic time series prediction, nonlinear transformation, and memory capacity). For each task, relevant literature results are compiled and it is shown that the performance of the PNNs compares favorably to that previously reported from nanoelectronic reservoirs. It is then demonstrated experimentally that PNNs can be used for spoken digit recognition with state‐of‐the‐art accuracy. Finally, a parallel reservoir architecture is emulated, which increases the dimensionality and richness of the reservoir outputs and results in further improvements in performance across all tasks.

Publisher

Wiley

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