Number Generator that achieves high entropy and passes NIST randomness tests. The generator grades the probability of ran-domness regardless of the output bit value by measuring the metastable resolution time. The system determines the original random noise level at the time of metastability and tunes itself to achieve a high probability of randomness. Dynamic control enables the system to respond to deterministic noise and a quali-fier module grades the individual metastable events to produce a high-entropy random bit-stream. The grading module allows the user to trade off output bit-rate with the quality of the bit-stream. A fully integrated true random number generator was fabricated in a 0.13 m bulk CMOS technology with an area of 0.145...
Random number generators are required for the operation of cryptographic information protection syst...
This paper introduces a random number generator (RNG) based on the avalanche noise of two diodes. A ...
In this work an original CMOS implementation of a discrete-time deterministic-chaos algorithm for ra...
Pseudorandom number generators are algorithmic and thus, predict-able. Ideally cryptography, simulat...
A true random number generator (TRNG) with time multiplexed metastability-based sources of randomnes...
©2005 COPYRIGHT SPIE--The International Society for Optical Engineering.While pseudo random number g...
True random number generators (tRNG) use a physical source of randomness such as thermal noise, or t...
As faster Random Number Generators become available, the possibility to improve the accuracy of rand...
We present the design and the validation by means of suitably improved randomness tests of two diffe...
Research in the sphere of random number generators is a dynamically evolving segment. The sequences ...
True random number generators (TRNGs) use physical randomness as entropy sources and are heavily use...
International audienceRandom numbers are required in many applications such as cryptography, telecom...
We present the design and the validation by means of suitably improved randomness tests of two diff...
Secure systems require strong encryption and authentication protocols. Secure systems are used are c...
We present the design and the validation by means of state-of-the-art randomness tests of a high-qua...
Random number generators are required for the operation of cryptographic information protection syst...
This paper introduces a random number generator (RNG) based on the avalanche noise of two diodes. A ...
In this work an original CMOS implementation of a discrete-time deterministic-chaos algorithm for ra...
Pseudorandom number generators are algorithmic and thus, predict-able. Ideally cryptography, simulat...
A true random number generator (TRNG) with time multiplexed metastability-based sources of randomnes...
©2005 COPYRIGHT SPIE--The International Society for Optical Engineering.While pseudo random number g...
True random number generators (tRNG) use a physical source of randomness such as thermal noise, or t...
As faster Random Number Generators become available, the possibility to improve the accuracy of rand...
We present the design and the validation by means of suitably improved randomness tests of two diffe...
Research in the sphere of random number generators is a dynamically evolving segment. The sequences ...
True random number generators (TRNGs) use physical randomness as entropy sources and are heavily use...
International audienceRandom numbers are required in many applications such as cryptography, telecom...
We present the design and the validation by means of suitably improved randomness tests of two diff...
Secure systems require strong encryption and authentication protocols. Secure systems are used are c...
We present the design and the validation by means of state-of-the-art randomness tests of a high-qua...
Random number generators are required for the operation of cryptographic information protection syst...
This paper introduces a random number generator (RNG) based on the avalanche noise of two diodes. A ...
In this work an original CMOS implementation of a discrete-time deterministic-chaos algorithm for ra...