Experimental Validation of a Chaotic Jerk Circuit Based True Random Number Generator-Reference-Cited by-同舟云学术

Experimental Validation of a Chaotic Jerk Circuit Based True Random Number Generator

Published:2022-06-05 Issue: Volume: Page:
ISSN:2687-4539
Container-title:Chaos Theory and Applications
language:en
Short-container-title:CHTA

Author:

HARRİSON R. Chase¹,RHEA Benjamin K.¹,OLDAG Ariel¹,DEAN Robert N.¹,PERKİNS Edmon²

Affiliation:

1. Auburn University

2. North Carolina State University

Abstract

A method for true random number generation by directly sampling a high frequency chaotic jerk circuit is explored. A method for determination of the maximum Lyapunov exponent, and thus the maximum bit rate for true random number generation, of the jerk system of interest is shown. The system is tested over a wide range of sampling parameters in order to simulate possible hardware configurations. The system is then implemented in high speed electronics on a small printed circuit board to verify its performance over the chosen parameters. The resulting circuit is well suited for random number generation due to its high dynamic complexity, long term aperiodicity, and extreme sensitivity to initial conditions. This system passes the Dieharder RNG test suite at 3.125 Mbps.

Publisher

Akif Akgul

Subject

General Materials Science

Reference32 articles.

1. Akhshani, A., A. Akhavan, A. Mobaraki, S.-C. Lim, and Z. Has- san, 2014 Pseudo random number generator based on quantum chaotic map. Communications in Nonlinear Science and Numer- ical Simulation 19: 101–111.

2. Balachandran, B., E. Perkins, and T. Fitzgerald, 2015 Response localization in micro-scale oscillator arrays: influence of cubic coupling nonlinearities. International Journal of Dynamics and Control 3: 183–188.

3. Bassham III, L. E., A. L. Rukhin, J. Soto, J. R. Nechvatal, M. E. Smid, et al., 2010 Sp 800-22 rev. 1a. a statistical test suite for random and pseudorandom number generators for cryptographic applications. National Institute of Standards & Technology.

4. Blaszczyk, M. and R. A. Guinee, 2008 A true random binary se- quence generator based on chaotic circuit. In IET Irish Signals and Systems Conference (ISSC 2008), pp. 294–299.

5. Brown, R. G., D. Eddelbuettel, and D. Bauer, 2013 Dieharder: A random number test suite. Open Source software library, under development, URL http://www. phy. duke. edu/ ̃ rgb/General/dieharder. php .

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