MAJORITY NANO-DEVICES OF SEQUENTIAL TYPE

Authors

  • O. S. Melnyk National Aviation University, Kyiv
  • D. G. Milke National Aviation University, Kyiv

DOI:

https://doi.org/10.18372/1990-5548.60.13810

Keywords:

Majority element, sequential nanodevices, quantum automata, one-electronics, computer aided design

Abstract

The paper describes the computer-aided design of reliable sequential nanoscale devices with majority structures. When constructing majority nanocircuits on the basis of technology of cellular quantum automates, the theory of finite automata is used. Basic principles of construction and peculiarities of trigger nanoelements functioning are considered. The developed mathematical models of high-speed one-electron nanocounters of addition and subtraction. Quantum cellular automata logic designers and circuits require a fast and accurate modeling and design tool to determine the functionality of quantum cellular automata circuits. The QCADesigner (software) gives the designer the ability to quickly develop and create quantum cellular automata by providing a wide range of computer-aided design tools. In addition, several simulation engines facilitate quick and accurate modeling. Sequential nanoscale devices were created using the QCADesigner.

Author Biographies

O. S. Melnyk, National Aviation University, Kyiv

Electronic Department, Faculty of Air Navigation, Electronics & Telecommunications

Candidate of Science (Engendering). Associate Professor

D. G. Milke, National Aviation University, Kyiv

Electronic Department, Faculty of Air Navigation, Electronics & Telecommunications

Student

 

References

O. S. Melnyk, V. O. Kozarevich, and D. S. Hodimchuk, Computer modeling of successive nanodrives // Problems of informatization and management: col. of sc. works/ NAU, Kyiv, vol. 2(46), pp. 42–45, 2014. (in Ukrainian)

C. S. Lent and P. D. Tougaw, “Devices Architecture for Computing whith Quantium Dots,” Proc. of the IEEE, vol. 10, no. 3, 1997, pp. 73–83.

K. Walus, QCADesiner: A CAD Tool for an Emerging Nano-Technology, Micronet Annual Workshop, 2003.

N. I. Pakulov, The majority principle of building reliable nodes and devices.: Sov. radio, 1974, 184 p. (in Russian)

K. Walus, “QCA Designer: A Rapid Design and Simulation Tool to QCADII,” Int. Journal of Nanotech and Appl., no. 1, pp. 1–7, 2005.

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Issue

Vol. 2 No. 60 (2019)

Section

COMPUTER-AIDED DESIGN SYSTEMS

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