Detail publikace
Evolution of Polymorphic Self-Checking Circuits
SEKANINA, L.
Originální název
Evolution of Polymorphic Self-Checking Circuits
Anglický název
Evolution of Polymorphic Self-Checking Circuits
Jazyk
en
Originální abstrakt
This paper presents elementary circuit components which exhibit self-checking properties; however, which do not utilize any additional signals to indicate the fault. The fault is indicated by generating specific values at some of standard outputs of a given circuit. In particular, various evolved adders containing conventional as well as polymorphic gates are proposed with less than duplication overhead which are able to detect a reasonable number of stuck-at-faults by oscillations at the carry-out output when the control signal of polymorphic gates oscillates.
Anglický abstrakt
This paper presents elementary circuit components which exhibit self-checking properties; however, which do not utilize any additional signals to indicate the fault. The fault is indicated by generating specific values at some of standard outputs of a given circuit. In particular, various evolved adders containing conventional as well as polymorphic gates are proposed with less than duplication overhead which are able to detect a reasonable number of stuck-at-faults by oscillations at the carry-out output when the control signal of polymorphic gates oscillates.
Dokumenty
BibTex
@inproceedings{BUT30894,
author="Lukáš {Sekanina}",
title="Evolution of Polymorphic Self-Checking Circuits",
annote="This paper presents elementary circuit components which exhibit self-checking
properties; however, which do not utilize any additional signals to indicate the
fault. The fault is indicated by generating specific values at some of standard
outputs of a given circuit. In particular, various evolved adders containing
conventional as well as polymorphic gates are proposed with less than duplication
overhead which are able to detect a reasonable number of stuck-at-faults by
oscillations at the carry-out output when the control signal of polymorphic gates
oscillates.",
address="Springer Verlag",
booktitle="Evolvable Systems: From Biology to Hardware",
chapter="30894",
edition="LNCS 4684",
howpublished="print",
institution="Springer Verlag",
journal="Lecture Notes in Computer Science (IF 0,513)",
year="2007",
month="september",
pages="186--197",
publisher="Springer Verlag",
type="conference paper"
}