Kaya Demir scite author profile

This paper presents an analytical study on the use of deterministic chaos as an entropy source for the generation of random numbers. The chaotic signal generated by a phase-locked loop (PLL) device is investigated using numerical simulations. Depending on the system parameters, the chaos originating from the PLL device can be either bounded or unbounded in the phase direction. Bounded and unbounded chaos differs in terms of the flatness of the power spectrum associated with the chaotic signal. Random bits are generated by regular sampling of the signal from bounded and unbounded chaos. A white Gaussian noise source is also sampled regularly to generate random bits. By varying the sampling frequency, and based on the autocorrelation and the approximate entropy analysis of the resulting bit sequences, a comparison is made between bounded chaos, unbounded chaos and Gaussian white noise as an entropy source for random number generators.

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Random Number Generators Based on Irregular Sampling and Fibonacci–Galois Ring Oscillators

Demir

Ergün

2019

IEEE Trans. Circuits Syst. II

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A study of through package vias in a glass interposer for multifunctional and miniaturized systems

Amrani

Benali

Bouya

et al. 2014

Microelectronics Reliability

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Reliability of Copper Through-Package Vias in Bare Glass Interposers

Demir

Armutlulu

Raj

et al. 2017

IEEE Trans. Compon., Packag. Manufact. Technol.

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Kaya Demir

Design, Fabrication, and Characterization of Ultrathin 3-D Glass Interposers With Through-Package-Vias at Same Pitch as TSVs in Silicon

An Analysis of Deterministic Chaos as an Entropy Source for Random Number Generators

Random Number Generators Based on Irregular Sampling and Fibonacci–Galois Ring Oscillators

A study of through package vias in a glass interposer for multifunctional and miniaturized systems

Reliability of Copper Through-Package Vias in Bare Glass Interposers

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