2019
DOI: 10.1038/s41598-019-51330-6
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Emergent dynamics of neuromorphic nanowire networks

Abstract: Neuromorphic networks are formed by random self-assembly of silver nanowires. Silver nanowires are coated with a polymer layer after synthesis in which junctions between two nanowires act as resistive switches, often compared with neurosynapses. We analyze the role of single junction switching in the dynamical properties of the neuromorphic network. Network transitions to a high-conductance state under the application of a voltage bias higher than a threshold value. The stability and permanence of this state i… Show more

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Cited by 109 publications
(159 citation statements)
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References 63 publications
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“…We previously introduced a novel neuromorphic system comprised of self-assembled nanowires whose structure and function (in response to electrical stimulation) mimic that of biological neural networks (Kuncic et al, 2018;Diaz-Alvarez et al, 2019). In these networks, each junction between nanowires provides a non-linear synaptic function in a similar manner as an atomic switch (Terabe et al, 2005;Ohno et al, 2011).…”
Section: Neuromorphic Systems: Mimicking the Brain In Hardwarementioning
confidence: 99%
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“…We previously introduced a novel neuromorphic system comprised of self-assembled nanowires whose structure and function (in response to electrical stimulation) mimic that of biological neural networks (Kuncic et al, 2018;Diaz-Alvarez et al, 2019). In these networks, each junction between nanowires provides a non-linear synaptic function in a similar manner as an atomic switch (Terabe et al, 2005;Ohno et al, 2011).…”
Section: Neuromorphic Systems: Mimicking the Brain In Hardwarementioning
confidence: 99%
“…In these networks, each junction between nanowires provides a non-linear synaptic function in a similar manner as an atomic switch (Terabe et al, 2005;Ohno et al, 2011). Rather than focusing on the controllability of individual synapses like ANNs or other neuromorphic systems, our Atomic Switchlike Networks (ASNs) mimic the complex topology of biological neural networks, by mimicking biological self-assembly to form similarly complex networks comprised of nanowires (synthetic neurons) and junctions (synthetic synapses) (Stieg et al, 2012;Diaz-Alvarez et al, 2019).…”
Section: Neuromorphic Systems: Mimicking the Brain In Hardwarementioning
confidence: 99%
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“…Despite a bright future prospective for the development of next‐generation artificial intelligence (AI) systems, it is hard for such rigid top‐down architectures to emulate most typical features of biological neural networks such as high connectivity, adaptability through reconnection and rewiring, and long‐range spatio‐temporal correlation. Alternative ways using unconventional systems consisting of many interacting nano‐parts have been proposed for the realization of biologically plausible architectures where the emergent behavior arises from a complexity similar to that of biological neural circuits . However, these systems were unable to demonstrate bio‐realistic implementation of structural plasticity including reweighting and rewiring and spatio‐temporal processing of input signals similarly to our brain.…”
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confidence: 99%