Single-electron Sequential Nanocircuits and their Models

Authors

DOI:

https://doi.org/10.18372/1990-5548.80.18683

Keywords:

quantum automata, majority logic, single-electonics, nanoregisters, computer design, models

Abstract

Memorizing nanodrives are distinguished by a large variety of majority trigger structures, which are the basic fragments of the the nanocircuit of a high integration level. The paper describes the synthesis of reliable sequential nanodevices of single- electronics based on the technology of quantum cellular automata. When constructing majority nano-circuits with memory, the theory of finite automata is used. The order of computer design of different types of arithmetic and logic nanodevices is analyzed. High-speed parallel-acting and paraphase control nanoregisters control are created.

Author Biographies

Oleksandr Melnyk , National Aviation University, Kyiv, Ukraine

Candidate of Sciences (Engineering)

Associated Professor

Department of Electronics, Robotics, Monitoring & IoT Technologies

Viktoriia Kozarevych , National Aviation University, Kyiv, Ukraine

Senior Lecturer

Department of Electronics, Robotics, Monitoring & IoT Technologies

References

M. T. Niemier, “Designing Digital Systems in Quantum Cellular Automata,” Master’s Thesis, University of Notre Dame, Indiana, 2004.

O. S. Melnyk, M. M. Kravets, and V. M. Kravets, “Four-bit nanoadder controlled by five-inputs majority elements,” Electronics and control systems, no. 4(74), pp. 67–72, 2022. https://doi.org/10.18372/1990-5548.74.17310

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

O. S. Melnyk and V. O. Kozarevych, “Arithmetic-logic single-electron nanocircuits,” Electronics and control systems, no. 2(76), pp. 68–72, 2023. https://doi.org/10.18372/1990-5548.76.17670

O. S. Melnyk, V. O. Kozarevych, and M. V. Butok, “Micro- and nanocircuits with confiurable logic,” Electronics and control systems, no. 3(76), pp. 47–52, 2023. https://doi.org/10.18372/1990-5548.77.18003.

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

O. S. Melnyk, V. O. Kozarevych, and P. І. Pilipenko, “Komp’yuterne proektuvannya arifmetichnikh nanopristroїv,” Vіsnik Natsіonalnogo tekhnіchnogo unіversitetu «KhPІ». Zbіrnik nauk. prats. Serіya: Matematichne modelyuvannya v tekhnіtsі ta tekhnologіyakh, Kharkіv: NTU “KhPІ,” no. 39 (1082), pp. 126–134, 2014. [in Ukraine]

O. V. Dmytryshyn and V. A. Luzhetskyi, “The mode of controlled coupling of encrypted text blocks,” Visnyk VPI, Vinnytsia, Vinnytsia National University Publishing House, no. 1, pp. 34–36, 2009. [in Ukraine].

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Published

2024-06-25

Issue

Vol. 2 No. 80 (2024)

Section

AUTOMATION AND COMPUTER-INTEGRATED TECHNOLOGIES

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