Detail publikace

Polymorphic Electronics Based on Ambipolar OFETs

Originální název

Polymorphic Electronics Based on Ambipolar OFETs

Anglický název

Polymorphic Electronics Based on Ambipolar OFETs

Jazyk

en

Originální abstrakt

Today, there are a lot of application areas, where a digital circuit, which is able to perform different functions in different situations, may be useful. There can be identified several main approaches how to implement a multifunctional circuit. Most simple and plain method is to design as many different circuits, as the total number of functions is actually needed. Then, outputs of these circuits are switched according to currently required function. This approach is perfectly functional, but appears to be quite inefficient in terms of size. Nowadays, principle of reconfiguration is used very frequently to implement several functions at one place within the circuit. This brings more area-efficient design and enhanced flexibility. In addition, circuits that were not prepared during design phase could be implemented, but may be less effective in terms of time needed to propagate the modification on a circuit level.

Anglický abstrakt

Today, there are a lot of application areas, where a digital circuit, which is able to perform different functions in different situations, may be useful. There can be identified several main approaches how to implement a multifunctional circuit. Most simple and plain method is to design as many different circuits, as the total number of functions is actually needed. Then, outputs of these circuits are switched according to currently required function. This approach is perfectly functional, but appears to be quite inefficient in terms of size. Nowadays, principle of reconfiguration is used very frequently to implement several functions at one place within the circuit. This brings more area-efficient design and enhanced flexibility. In addition, circuits that were not prepared during design phase could be implemented, but may be less effective in terms of time needed to propagate the modification on a circuit level.

BibTex


@inproceedings{BUT111529,
  author="Radek {Tesař} and Václav {Šimek} and Richard {Růžička} and Adam {Crha}",
  title="Polymorphic Electronics Based on Ambipolar OFETs",
  annote="Today, there are a lot of application areas, where a digital circuit, which is
able to perform different functions in different situations, may be useful. There
can be identified several main approaches how to implement a multifunctional
circuit. Most simple and plain method is to design as many different circuits, as
the total number of functions is actually needed. Then, outputs of these circuits
are switched according to currently required function. This approach is perfectly
functional, but appears to be quite inefficient in terms of size. Nowadays,
principle of reconfiguration is used very frequently to implement several
functions at one place within the circuit. This brings more area-efficient design
and enhanced flexibility. In addition, circuits that were not prepared during
design phase could be implemented, but may be less effective in terms of time
needed to propagate the modification on a circuit level.",
  address="Brno University of Technology",
  booktitle="EDS 2014 IMAPS CS International Conference Proceedings",
  chapter="111529",
  doi="10.13140/RG.2.1.1416.5523",
  edition="NEUVEDEN",
  howpublished="print",
  institution="Brno University of Technology",
  year="2014",
  month="january",
  pages="106--111",
  publisher="Brno University of Technology",
  type="conference paper"
}