Detail výsledku
Lets Move Polymorphism Downwards: On the Multifunctional Logic Based on Ambipolar Behaviour of Semiconductor Devices
One of main advantages of polymorphic (multifunctional) electronics is efficiency in terms of size. To fulfil size-oriented constraints of a circuit, which exhibits more than one function with the same (unchanged) structure, components of the circuit have to be multi-functional and these components must be defined at the lowest possible level. Lower level means more size-efficient solution. This paper shows how components for polymorphic circuits should be implemented more efficiently, if multi-functionality at the transistor level (based on ambipolarity, often observed in so called post-silicon devices) is employed instead of at the gate level of abstraction, as it was used yet.
ambipolarity, multifunctional logic, polymorphic electronics
@inproceedings{BUT130947,
author="Richard {Růžička} and Radek {Tesař}",
title="Lets Move Polymorphism Downwards: On the Multifunctional Logic Based on Ambipolar Behaviour of Semiconductor Devices",
booktitle="Proceedings of the 11th International Conference on Design & Technology of Integrated Systems in Nanoscale Era",
year="2016",
pages="275--279",
publisher="Istanbul Sehir University",
address="Istanbul",
doi="10.1109/DTIS.2016.7483891",
isbn="978-1-5090-0335-8"
}