Nanocircuits for the cryptographic modules

Authors

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

DOI:

https://doi.org/10.18372/1990-5548.51.11697

Keywords:

Quantum cellular automata, majority gate, Gaois configuration, linear shift nanoregister

Abstract

The possibility of introducing non-emitting nanoscales on the basis of quantum cellularautomata has been investigated. It practically neutralizes electromagnetic attacks. The method ofprotection from external interferences and observations of electromagnetic radiation (attacks) isproposed in the work. The power consumption of cryptographic modules has been reduced by five orders.Secure encryption of cryptographic information is provided

Author Biographies

O. S. Melnyk, National Aviation University

Candidate of Sciences (Engineering). Associate Professor.Electronics Department, Educational & Research Institute of Air Navigation

D. G. Milke, National Aviation University

Student. Electronics Department, Educational & Research Institute of Air Navi

References

E. Ramini and S. M. Nejad. Secure clocked QCA logic for implementation of cryptographic processors. Applies Electronics, Pilsen 9-10. September, 2009.

C. S. Lent and P. D. Tougaw, “A Device architecture for computing with quantum dots.” Proc. of the IEEE, 1997.

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

A. Y. Beleckij and A. A. Beleckij, Gray's conversion. Monograph in 2 volumes, vol. 1, Fundamentals of Theory, Kyiv, NAU, 2007, 506 p. (in Russian)

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Issue

Vol. 1 No. 51 (2017)

Section

COMPUTER-AIDED DESIGN SYSTEMS

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