Alternative computing such as stochastic computing and bio-inspired computing holds
promise for overcoming the limitations of von Neumann computers. However, one difficulty …

In this paper, a nondeterministic random number generator based on detection of the single
photons emitted by an Si-CMOS-LED light source integrated for the first time on the detector …

We propose a true random number generator (TRNG) based on adiabatic quantum-flux-
parametron (AQFP) logic. This AQFP TRNG corresponds to an AQFP buffer chain with the …

A superconductive perceptron, an artificial neural network, has been investigated using
single flux quantum (SFQ) stochastic logic. A superconductive pseudo sigmoid function …

This article introduces high-throughput/low-energy true random number generators (TRNGs)
based on CMOS and three-terminal magnetic tunnel junction (MTJ) devices. MTJs are fast …

True random number generators, which output truly random numbers by extracting entropy
from physical phenomena such as thermal and electronic noises, are widely used in the field …

Random numbers are very useful in simulation, chaos theory, game theory, information
theory, pattern recognition, probability theory, quantum mechanics, statistics, and statistical …

Random numbers play a vital role in communications and cryptography. However, most
existing true random number generators have difficulty in satisfying the requirements of high …

In the contemporary digital landscape, security has become a vital element of our existence.
The growing volume of sensitive information being stored and transmitted over networks …

A superconducting single-flux-quantum (SFQ) circuit is suitable for stochastic computation
that represents information in terms of the probability of'1's in a finite-bit-length number train …