Result Details

Towards Design Flow for Space-Efficient Implementation of Polymorphic Circuits Based on Ambipolar Components

ŠIMEK, V.; NEVORAL, J.; CRHA, A.; RŮŽIČKA, R. Towards Design Flow for Space-Efficient Implementation of Polymorphic Circuits Based on Ambipolar Components. ElectroScope - http://www.electroscope.zcu.cz, 2017, vol. 11, no. 1, p. 1-10. ISSN: 1802-4564.

Type

journal article

Language

English

Authors

Šimek Václav, Ing., DCSY (FIT)
Nevoral Jan, Ing., Ph.D., FIT (FIT), DCSY (FIT)
Crha Adam, Ing., Ph.D., DCSY (FIT)
Růžička Richard, doc. Ing., Ph.D., MBA, DCSY (FIT)

Abstract

Mainobjective of this contribution is to present a unified design flow for anefficient implementation of polymorphic circuits. First of all, it employs anevolutionary inspired techniques that facilitates the creation ofmultifunctional circuit elements (i.e. logic gates) based on emerging materialsand nano-structures exhibiting the ambipolar behavior. Those logic gatesconsists of individual transistors where the conduction mode (N- or P-channel)is controlled by switching the power rails.

Unfortunately, conventional designmethods and algorithms are not directly applicable for a design of polymorphiccircuits without the need to face major changes. Hence the other important partof the suggested design flow is comprising the necessary circuit synthesistechnique using those multifunctional logic gates. The presented circuitsynthesis approach makes it feasible to achieve an area-efficient results incase of complex polymorphic circuit involving hundreds of gates. Its core isbased on the utilization of Boolean division principles and function kernellingtechnique.

Keywords

polymorphic electronics, ambipolar behaviour, circuit synthesis, evolutionary design, Boolean division, kernelling, design techniques

Published

2017

Pages

1–10

Journal

ElectroScope - http://www.electroscope.zcu.cz, vol. 11, no. 1, ISSN 1802-4564

BibTeX

@article{BUT144456,
  author="Václav {Šimek} and Jan {Nevoral} and Adam {Crha} and Richard {Růžička}",
  title="Towards Design Flow for Space-Efficient Implementation of Polymorphic Circuits Based on Ambipolar Components",
  journal="ElectroScope - http://www.electroscope.zcu.cz",
  year="2017",
  volume="11",
  number="1",
  pages="1--10",
  issn="1802-4564",
  url="https://www.fit.vut.cz/research/publication/11476/"
}

Files

pdf submission_simekv.pdf 555 kB

Projects

IT4Innovations excellence in science, MŠMT, Národní program udržitelnosti II, LQ1602, start: 2016-01-01, end: 2020-12-31, completed
Unconventional Design Techniques for Intrinsic Reconfiguration of Digital Circuits: From Materials to Implementation, MŠMT, COST CZ (2011-2017), LD14055, start: 2014-05-05, end: 2017-05-31, completed

Research groups

Unconventional Digital Circuits Research Group (RG POLY)

Departments

Department of Computer Systems (DCSY)