Detail publikace
More Complex Polymorphic Circuits: A Way to Implementation of Smart Dependable Systems
RŮŽIČKA, R. ŠIMEK, V.
Originální název
More Complex Polymorphic Circuits: A Way to Implementation of Smart Dependable Systems
Anglický název
More Complex Polymorphic Circuits: A Way to Implementation of Smart Dependable Systems
Jazyk
en
Originální abstrakt
Today, there are a lot of application areas, where a circuit, which is able to perform different functions in different situations, may be useful. Typically, polymorphic circuits provide very area-efficient implementation and have also embedded and distributed sensing of an environment state. It might be a useful attribute to be considered for a dependable system design. This paper is dealing with a more complex polymorphic circuits with dependability feature and their physical implementation. The actual experimental setup was based around reconfigurable polymorphic chip REPOMO32 as a target environment, which is primarily designed to be configured (besides the configuration bit stream itself) by means of using the level of power supply voltage (Vdd). A part of polymorphic FIR filter was mapped onto the resources available inside REPOMO32 chip. Obtained results indicate feasibility of a full-scale implementation comprising several REPOMO32 chips.
Anglický abstrakt
Today, there are a lot of application areas, where a circuit, which is able to perform different functions in different situations, may be useful. Typically, polymorphic circuits provide very area-efficient implementation and have also embedded and distributed sensing of an environment state. It might be a useful attribute to be considered for a dependable system design. This paper is dealing with a more complex polymorphic circuits with dependability feature and their physical implementation. The actual experimental setup was based around reconfigurable polymorphic chip REPOMO32 as a target environment, which is primarily designed to be configured (besides the configuration bit stream itself) by means of using the level of power supply voltage (Vdd). A part of polymorphic FIR filter was mapped onto the resources available inside REPOMO32 chip. Obtained results indicate feasibility of a full-scale implementation comprising several REPOMO32 chips.
Dokumenty
BibTex
@article{BUT104519,
author="Richard {Růžička} and Václav {Šimek}",
title="More Complex Polymorphic Circuits: A Way to Implementation of Smart Dependable Systems",
annote="Today, there are a lot of application areas, where a circuit, which is able to
perform different functions in different situations, may be useful. Typically,
polymorphic circuits provide very area-efficient implementation and have also
embedded and distributed sensing of an environment state. It might be a useful
attribute to be considered for a dependable system design. This paper is dealing
with a more complex polymorphic circuits with dependability feature and their
physical implementation. The actual experimental setup was based around
reconfigurable polymorphic chip REPOMO32 as a target environment, which is
primarily designed to be configured (besides the configuration bit stream itself)
by means of using the level of power supply voltage (Vdd). A part of polymorphic
FIR filter was mapped onto the resources available inside REPOMO32 chip. Obtained
results indicate feasibility of a full-scale implementation comprising several
REPOMO32 chips.",
address="NEUVEDEN",
chapter="104519",
edition="NEUVEDEN",
howpublished="online",
institution="NEUVEDEN",
number="5",
volume="7",
year="2013",
month="november",
pages="1--6",
publisher="NEUVEDEN",
type="journal article - other"
}