Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
TRNG Entropy Model in the Presence of Flicker FM Noise
View through CrossRef
Flicker Frequency Modulated (FM) noise, which influences free-running Ring Oscillators (ROs), can make a substantial contribution to the entropy generated by RO-based True Random Number Generators (TRNGs). While current TRNG stochastic models predominantly concentrate on white FM noise, the addition of flicker FM noise could remarkably enrich the analysis of the TRNG entropy production rate. This paper introduces an entropy model for TRNGs, employing Gaussian processes, to estimate entropy generation from both white FM and flicker FM noise. We analytically derive the flicker FM noise Auto-Correlation Function (ACF), enabling assessment of entropy contributions conditioned on partial knowledge of the TRNG’s internal state. Utilizing the developed model with commonly reported noise magnitudes found in literature, it is determined that flicker FM noise holds the potential to substantially enhance the TRNG’s entropy rate. However, due to considerable variation in reported magnitudes across limited available research on flicker FM noise, it cannot yet be universally accepted as a dependable source of TRNG entropy.
Universitatsbibliothek der Ruhr-Universitat Bochum
Title: TRNG Entropy Model in the Presence of Flicker FM Noise
Description:
Flicker Frequency Modulated (FM) noise, which influences free-running Ring Oscillators (ROs), can make a substantial contribution to the entropy generated by RO-based True Random Number Generators (TRNGs).
While current TRNG stochastic models predominantly concentrate on white FM noise, the addition of flicker FM noise could remarkably enrich the analysis of the TRNG entropy production rate.
This paper introduces an entropy model for TRNGs, employing Gaussian processes, to estimate entropy generation from both white FM and flicker FM noise.
We analytically derive the flicker FM noise Auto-Correlation Function (ACF), enabling assessment of entropy contributions conditioned on partial knowledge of the TRNG’s internal state.
Utilizing the developed model with commonly reported noise magnitudes found in literature, it is determined that flicker FM noise holds the potential to substantially enhance the TRNG’s entropy rate.
However, due to considerable variation in reported magnitudes across limited available research on flicker FM noise, it cannot yet be universally accepted as a dependable source of TRNG entropy.
Related Results
A TRNG Implemented Using a Soft-Data Based Sponge Function within a Unified Strong PUF Architecture
A TRNG Implemented Using a Soft-Data Based Sponge Function within a Unified Strong PUF Architecture
Hardware security primitives including True Random Number Generators (TRNG) and Physical Unclonable Functions (PUFs) are central components to establishing a root of trust in micro...
Stochastic Cell- and Bit-Discard Technique to Improve Randomness of a TRNG
Stochastic Cell- and Bit-Discard Technique to Improve Randomness of a TRNG
This paper presents a post-processing algorithm for a true random number generator (TRNG). Once the randomness of security key generation deteriorates for any reason, the entire ch...
Design of a Unified XOR Ring Oscillator PUF-TRNG Circuit in 45nm CMOS Technology
Design of a Unified XOR Ring Oscillator PUF-TRNG Circuit in 45nm CMOS Technology
<p>In previous papers various True Random Number Generators (TRNG) and Physically Unclonable Function (PUF) are discussed individually but only a few of them include unified ...
Design of a Unified XOR Ring Oscillator PUF-TRNG Circuit in 45nm CMOS Technology
Design of a Unified XOR Ring Oscillator PUF-TRNG Circuit in 45nm CMOS Technology
<p>In previous papers various True Random Number Generators (TRNG) and Physically Unclonable Function (PUF) are discussed individually but only a few of them include unified ...
Min-Entropy Estimation for Semiconductor Superlattice True Random Number Generators
Min-Entropy Estimation for Semiconductor Superlattice True Random Number Generators
Abstract
Semiconductor superlattice true random number generator (SSL-TRNG) has an outstanding practical property to serve as high-throughput and high-security cryptographi...
Mechanism of suppressing noise intensity of squeezed state enhancement
Mechanism of suppressing noise intensity of squeezed state enhancement
This research focuses on advanced noise suppression technologies for high-precision measurement systems, particularly addressing the limitations of classical noise reducing approac...
Multisensory flicker modulates widespread brain networks and reduces interictal epileptiform discharges
Multisensory flicker modulates widespread brain networks and reduces interictal epileptiform discharges
AbstractModulating brain oscillations has strong therapeutic potential. Interventions that both non-invasively modulate deep brain structures and are practical for chronic daily ho...
Flicker Emission Analysis of a Wind Farm
Flicker Emission Analysis of a Wind Farm
In this paper is presented the criteria used by UTE, with respect to the Flicker emission of power plants; considering that this is one of the quality parameters monitored at the c...