Publication detail

Fault Tolerance and Reconfiguration in Cellular Systems

SEKANINA, L., DRÁBEK, V.

Original Title

Fault Tolerance and Reconfiguration in Cellular Systems

English Title

Fault Tolerance and Reconfiguration in Cellular Systems

Type

conference paper

Language

en

Original Abstract

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.

English abstract

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.

Keywords

cellular systems, classification

Released

01.01.2000

Publisher

unknown

Location

Smolenice

ISBN

80-968320-3-4

Book

Proc. of Design and Diagnostics of Electronic Circuits and Systems - IEEE DDECS'2000

Pages from

134

Pages to

137

Pages count

4

Documents

BibTex


@inproceedings{BUT5433,
  author="Lukáš {Sekanina} and Vladimír {Drábek}",
  title="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="unknown",
  booktitle="Proc. of Design and Diagnostics of Electronic Circuits and Systems - IEEE DDECS'2000",
  chapter="5433",
  institution="unknown",
  year="2000",
  month="january",
  pages="134--137",
  publisher="unknown",
  type="conference paper"
}