This paper details and expands the work on Embryonics,
a recently proposed fault-tolerant cellular
architecture with reconfiguration properties inspired
by the ontogenetic development of multicellular
systems. The design of a selector-based embryonic cell,
its applications and the reliability models associated
to different embryonic reconfiguration strategies are
presented. It is noted that embryonic distributed
systems possess, in the majority of cases, better
reliability characteristics than equivalent centralised
systems.
%0 Journal Article
%1 Ortega-Sanchez:2000:ebcaftp
%A Ortega-Sanchez, Cesar
%A Mange, Daniel
%A Smith, Steve
%A Tyrrell, Andy
%D 2000
%J Genetic Programming and Evolvable Machines
%K FPGAs, algorithms, bio-inspired embryonics, evolvable fault-tolerant genetic hardware models, reliability systems,
%N 3
%P 187--215
%R doi:10.1023/A:1010080629099
%T Embryonics: A Bio-Inspired Cellular Architecture
with Fault-Tolerant Properties
%V 1
%X This paper details and expands the work on Embryonics,
a recently proposed fault-tolerant cellular
architecture with reconfiguration properties inspired
by the ontogenetic development of multicellular
systems. The design of a selector-based embryonic cell,
its applications and the reliability models associated
to different embryonic reconfiguration strategies are
presented. It is noted that embryonic distributed
systems possess, in the majority of cases, better
reliability characteristics than equivalent centralised
systems.
@article{Ortega-Sanchez:2000:ebcaftp,
abstract = {This paper details and expands the work on Embryonics,
a recently proposed fault-tolerant cellular
architecture with reconfiguration properties inspired
by the ontogenetic development of multicellular
systems. The design of a selector-based embryonic cell,
its applications and the reliability models associated
to different embryonic reconfiguration strategies are
presented. It is noted that embryonic distributed
systems possess, in the majority of cases, better
reliability characteristics than equivalent centralised
systems.},
added-at = {2008-06-19T17:35:00.000+0200},
author = {Ortega-Sanchez, Cesar and Mange, Daniel and Smith, Steve and Tyrrell, Andy},
biburl = {https://www.bibsonomy.org/bibtex/28287c2cbd7192f55168cc2dd0d64ae2d/brazovayeye},
doi = {doi:10.1023/A:1010080629099},
interhash = {63cd512099ebba421f9d8fe68fab8e24},
intrahash = {8287c2cbd7192f55168cc2dd0d64ae2d},
issn = {1389-2576},
journal = {Genetic Programming and Evolvable Machines},
keywords = {FPGAs, algorithms, bio-inspired embryonics, evolvable fault-tolerant genetic hardware models, reliability systems,},
month = {July},
notes = {Article ID: 264700},
number = 3,
pages = {187--215},
timestamp = {2008-06-19T17:49:08.000+0200},
title = {Embryonics: {A} Bio-Inspired Cellular Architecture
with Fault-Tolerant Properties},
volume = 1,
year = 2000
}