Anas N. Al-Rabadi
Department of Computer Engineering, The University of Jordan, Amman – Jordan &
Department of Renewable Energy Engineering, Isra University – Jordan
ABSTRACT
New implementations within concurrent processing using three-dimensional lattice networks via nano carbon-based field emission controlled-switching is introduced in this article. The introduced nano-based three-dimensional networks utilize recent findings in nano-apex field emission to implement the concurrent functionality of lattice networks. The concurrent implementation of ternary Galois functions using nano threedimensional lattice networks is performed by using carbon field-emission switching devices via nano-apex carbon fibers and nanotubes. The presented work in this part of the article presents important basic background and fundamentals with regards to lattice computing and carbon field-emission that will be utilized within the follow-up works in the second and third parts of the article. The introduced nano-based three-dimensional lattice implementations form new and important directions within three-dimensional design in nanotechnologies that require optimal specifications of high regularity, predictable timing, high testability, fault localization, self-repair, minimum size, and minimum power consumption.
KEYWORDS
Carbon nano-apex, Concurrent processing, Field emission, Lattice network, Regularity, Symmetric function.
ORIGINAL SOURCE URL: https://aircconline.com/vlsics/V11N5/11520vlsi01.pdf
http://airccse.org/journal/vlsi/vol11.html
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