Supercomputers-beyond today's supercomputers

Advanced technologies and their potential for the next generation of supercomputers are addressed. Among them are bacteria serving as lithographic masks, computer chips grown from organic molecules, beams of light in free space acting as input/output 'buses', and architectures without logi...

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Published in:IEEE spectrum 1992-09, Vol.29 (9), p.72-75
Main Author: Bell, T.E.
Format: Magazinearticle
Language:English
Subjects:
Assembly
Glass
Logic gates
Microorganisms
Optical fiber networks
Quantum computing
Quantum dots
Space technology
Supercomputers
Wires
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creator Bell, T.E.
description Advanced technologies and their potential for the next generation of supercomputers are addressed. Among them are bacteria serving as lithographic masks, computer chips grown from organic molecules, beams of light in free space acting as input/output 'buses', and architectures without logic gates that yield an answer without calculations. The need for a universal computational model for parallel processing is discussed. The use of neural networks is considered.< >
doi_str_mv 10.1109/6.155714
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source IEEE Electronic Library (IEL) Journals
subjects Assembly
Glass
Logic gates
Microorganisms
Optical fiber networks
Quantum computing
Quantum dots
Space technology
Supercomputers
Wires
title Supercomputers-beyond today's supercomputers
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