A novel True Random Number Generator (TRNG), using random telegraph noise (RTN) as the entropy source, is proposed to address speed, design area, power and cost simultaneously. For the first time, the proposed design breaks the inherent speed limitation and generates true random numbers up to 3Mbps with ultra-low power. This is over 10 times faster than the state-of-the-art RTN-TRNG. Moreover, the new design does not require selection of devices and thus avoids the use of large transistor array and laborious post-selection process. This reduces the circuit area and the cost. The proposed TRNG has been successfully validated on three different processes and they all passed the National Institute of Standards and Technology (NIST) tests, maki...
True random number generator (TRNG) is a critical component in hardware security that is increasingl...
In this paper, we propose and demonstrate a novel technique for true random number generator (TRNG) ...
International audienceMany embedded security chips require a high- quality digital True Random Numbe...
The future security of Internet of Things is a key concern in the cyber-security field. One of the k...
True Random Number Generators (TRNGs) use physical phenomenon as their source of randomness. In elec...
In the rapidly developing Internet of Things (IoT) applications, how to achieve rapid identification...
We present a circuit technique to extract true random numbers from carrier capture and emission in o...
Although the intrinsic variability in nanoelectronic devices has been a major obstacle and has preve...
International audienceThe proposed true random number generator (TRNG) exploits the jitter of events...
For modern cryptography, the availability of true random numbers is indispensable. While recent tech...
True random number generators (TRNGs) use physical randomness as entropy sources and are heavily use...
We present the design and the validation by means of state-of-the-art randomness tests of a high-qua...
A true random number generator (TRNG) with time multiplexed metastability-based sources of randomnes...
The intrinsic variability of switching behavior in memristors has been a major obstacle to their ado...
We present a circuit technique to extract true random numbers from carrier capture and emission in o...
True random number generator (TRNG) is a critical component in hardware security that is increasingl...
In this paper, we propose and demonstrate a novel technique for true random number generator (TRNG) ...
International audienceMany embedded security chips require a high- quality digital True Random Numbe...
The future security of Internet of Things is a key concern in the cyber-security field. One of the k...
True Random Number Generators (TRNGs) use physical phenomenon as their source of randomness. In elec...
In the rapidly developing Internet of Things (IoT) applications, how to achieve rapid identification...
We present a circuit technique to extract true random numbers from carrier capture and emission in o...
Although the intrinsic variability in nanoelectronic devices has been a major obstacle and has preve...
International audienceThe proposed true random number generator (TRNG) exploits the jitter of events...
For modern cryptography, the availability of true random numbers is indispensable. While recent tech...
True random number generators (TRNGs) use physical randomness as entropy sources and are heavily use...
We present the design and the validation by means of state-of-the-art randomness tests of a high-qua...
A true random number generator (TRNG) with time multiplexed metastability-based sources of randomnes...
The intrinsic variability of switching behavior in memristors has been a major obstacle to their ado...
We present a circuit technique to extract true random numbers from carrier capture and emission in o...
True random number generator (TRNG) is a critical component in hardware security that is increasingl...
In this paper, we propose and demonstrate a novel technique for true random number generator (TRNG) ...
International audienceMany embedded security chips require a high- quality digital True Random Numbe...