DocumentCode
2358576
Title
Bio-inspired devices, circuits and systems
Author
Shibata, Tadashi
Author_Institution
Dept. of Electr. Eng. & Inf. Syst., Univ. of Tokyo, Tokyo, Japan
fYear
2009
fDate
14-18 Sept. 2009
Firstpage
8
Lastpage
15
Abstract
Despite their enormous computational powers, digital computers today are inferior to humans in such tasks, like seeing events happening in front, perceiving and recognizing them by intuition and association, and making a decision to take an immediate action. It is very unlikely that computers will become intelligent as humans in this sense by just increasing the number of transistors on CPU chips. How can we approach this problem by learning from biological systems of their computing principles? This is the main theme of this article. We are aiming to develop a new-paradigm computing system most suited to such human-like intelligent information processing by best utilizing the state-of-the-art silicon technology. For this end, we have developed a series of VLSI chips dedicated to specific brain-mimicking processing using digital, analog as well as mixed-signal circuit technologies. There is an opportunity of even using exotic current-voltage characteristics of nano functional devices directly in such computation. In this paper, we will also discuss how we can circumvent the serious issue of the nanoscale integration, i.e., the variability problem of device characteristics that is inherent in nanoscale devices.
Keywords
VLSI; analogue circuits; artificial intelligence; digital circuits; elemental semiconductors; mixed analogue-digital integrated circuits; nanoelectronics; silicon; VLSI chips; analogue circuit; bio-inspired circuits; bio-inspired devices; biological systems; brain-mimicking processing; current-voltage characteristics; digital circuit; human-like intelligent information processing; mixed-signal circuit technology; nanofunctional devices; nanoscale integration; state-of-the-art silicon technology; variability problem; Biological systems; Biology computing; Central Processing Unit; Circuits and systems; Computational intelligence; Humans; Information processing; Nanoscale devices; Silicon; Very large scale integration;
fLanguage
English
Publisher
ieee
Conference_Titel
Solid State Device Research Conference, 2009. ESSDERC '09. Proceedings of the European
Conference_Location
Athens
ISSN
1930-8876
Print_ISBN
978-1-4244-4351-2
Electronic_ISBN
1930-8876
Type
conf
DOI
10.1109/ESSDERC.2009.5331354
Filename
5331354
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