MODELING OF NANOCIRCUITS WITH PROGRAMMABLE LOGIC

Authors

  • O. S. Melnyk National Aviation University
  • V. T. Girnyak National Aviation University

DOI:

https://doi.org/10.18372/1990-5548.47.10285

Keywords:

Quantum nanodots, majority elements, computer-aided design

Abstract

The design of reliable nanoelectronic circuits with programmable logic based on the technologyof quantum automata has been described. While constructing majority circuits of combinational and sequentialtypes the interaction of Coulomb forces using. The order of synthesis and programming of varioustypes of arithmetic-logic devices has been analyzed

Author Biographies

O. S. Melnyk, National Aviation University

Ph. D. Associate Professor. Departmentof electronics

V. T. Girnyak, National Aviation University

Student.Department of electronics

References

O. S. Melnyk and S. V. Todavchych, “Synthesis of programmable nanoelectronic devices.” Electronics and Control System, 2013, no. 1(35). pp. 88–93.

P. D. Tougaw and C. S. Lent, “Logic devices implement using quantum cellular automata.” Appl. Phys. 1994, no. 3, pp.49–57.

N. I. Pakulov, Majority principle of the trusted sites and computer devices. Мoscow: Sov. radio, 1974, 184 p. (in Russian)

K. Walus, “QCA Designer: A Rapid Design and Simulation Tool for QCA.” Internet journal of Nanotech. and Appl. 2005, vol. 2, no. 1, pp. 1–7.

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Issue

Vol. 1 No. 47 (2016)

Section

COMPUTER-AIDED DESIGN SYSTEMS

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