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Practical micro/nano fabrication implementations of memristive devices

Practical micro/nano fabrication implementations of memristive devices
Practical micro/nano fabrication implementations of memristive devices
The recent discovery of the memristor has marked a new era for the advancement of neuromorphic applications and particularly the development of neurally-inspired processing architectures in silicon. An adults brain is a highly complex system and is estimated to contain from 10¹? to 5×10¹? synapses. On the other hand, the memristor is a delicate device requiring robust and reproducible fabrication methods. This paper assesses practical ways with which memristive devices can be fabricated, providing an experimental platform for studying systems with inherent neuromorphic responses.
Prodromakis, T.
d58c9c10-9d25-4d22-b155-06c8437acfbf
Michelakis, K.
ea581b11-2706-421d-88a2-f710075c9e25
Toumazou, C.
52728165-8fe5-4c54-9fad-e9ccc4423dd6
Prodromakis, T.
d58c9c10-9d25-4d22-b155-06c8437acfbf
Michelakis, K.
ea581b11-2706-421d-88a2-f710075c9e25
Toumazou, C.
52728165-8fe5-4c54-9fad-e9ccc4423dd6

Prodromakis, T., Michelakis, K. and Toumazou, C. (2010) Practical micro/nano fabrication implementations of memristive devices. At 12th International Workshop on Cellular Nanoscale Networks and Their Applications (CNNA) 12th International Workshop on Cellular Nanoscale Networks and Their Applications (CNNA). 03 - 05 Feb 2010. 4 pp.

Record type: Conference or Workshop Item (Other)

Abstract

The recent discovery of the memristor has marked a new era for the advancement of neuromorphic applications and particularly the development of neurally-inspired processing architectures in silicon. An adults brain is a highly complex system and is estimated to contain from 10¹? to 5×10¹? synapses. On the other hand, the memristor is a delicate device requiring robust and reproducible fabrication methods. This paper assesses practical ways with which memristive devices can be fabricated, providing an experimental platform for studying systems with inherent neuromorphic responses.

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More information

Published date: 3 February 2010
Venue - Dates: 12th International Workshop on Cellular Nanoscale Networks and Their Applications (CNNA), 2010-02-03 - 2010-02-05
Organisations: Nanoelectronics and Nanotechnology

Identifiers

Local EPrints ID: 351571
URI: https://eprints.soton.ac.uk/id/eprint/351571
PURE UUID: 91ac5eed-cbe1-4ade-895d-66b9546059d0
ORCID for T. Prodromakis: ORCID iD orcid.org/0000-0002-6267-6909

Catalogue record

Date deposited: 29 Apr 2013 10:38
Last modified: 06 Jun 2018 12:24

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Contributors

Author: T. Prodromakis ORCID iD
Author: K. Michelakis
Author: C. Toumazou

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