Detail publikace
Relation Between Fault Tolerance and Reconfiguration in Cellular Systems
Originální název
Relation Between Fault Tolerance and Reconfiguration in Cellular Systems
Anglický název
Relation Between Fault Tolerance and Reconfiguration in Cellular Systems
Jazyk
en
Originální abstrakt
Recently, hardware researchers have promptly begun to investigate alternative computational principles to the conventional ones. The main signs of these principles are inspiration in biology and their direct hardware implementation. Evolvable hardware, cellular computing or embryonic electronics are the most important examples. This paper describes different approaches to configuration, reconfiguration and fault tolerance implementation of two-dimensional cellular system. Simplicity of the cell, vast parallelism, and the connection locality are considered as the design restrictions.
Anglický abstrakt
Recently, hardware researchers have promptly begun to investigate alternative computational principles to the conventional ones. The main signs of these principles are inspiration in biology and their direct hardware implementation. Evolvable hardware, cellular computing or embryonic electronics are the most important examples. This paper describes different approaches to configuration, reconfiguration and fault tolerance implementation of two-dimensional cellular system. Simplicity of the cell, vast parallelism, and the connection locality are considered as the design restrictions.
BibTex
@inproceedings{BUT5584,
author="Lukáš {Sekanina} and Vladimír {Drábek}",
title="Relation Between Fault Tolerance and Reconfiguration in Cellular Systems",
annote="Recently, hardware researchers have promptly begun to investigate alternative computational principles to the conventional ones. The main signs of these principles are inspiration in biology and their direct hardware implementation. Evolvable hardware, cellular computing or embryonic electronics are the most important examples. This paper describes different approaches to configuration, reconfiguration and fault tolerance implementation of two-dimensional cellular system. Simplicity of the cell, vast parallelism, and the connection locality are considered as the design restrictions.",
address="IEEE Computer Society Press",
booktitle="6th IEEE Int. On-Line Testing Workshop",
chapter="5584",
institution="IEEE Computer Society Press",
year="2000",
month="january",
pages="25--30",
publisher="IEEE Computer Society Press",
type="conference paper"
}