A metastable RNG using interleaved NAND- and NOR-based TEROs.

Autor: Wang, Chua-Chin, Tolentino, Lean Karlo S., Lu, Shao-Wei, Sangalang, Ralph Gerard B., Jose, Oliver Lexter July A., Lee, Tzung-Je
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Zdroj: International Journal of Electronics Letters; Dec2024, Vol. 12 Issue 4, p357-374, 18p
Abstrakt: This study introduces a novel approach to address the limitations observed in existing random number generator (RNG) designs, focusing on the resolution for insufficiently covered problem statements and study purposes. In response to these challenges, we propose a high-throughput metastable-based RNG tailored for cryptography applications. Our design is featured with a two-layer transient effect ring oscillator (TERO) architecture, meticulously crafted to mitigate the locking phenomenon and enhance RNG randomness. Leveraging interleaved two-layer TEROs, realised through NAND and NOR SR latches, our RNG achieves unpredictable irregular sampling, crucial for cryptographic applications. To further enhance irregular sampling, the first layer of the RNG employs a multiplexer that selects inputs randomly. This multiplexer is governed by selection signals generated by the second layer of the RNG, ensuring superior randomness. Implemented using TSMC 40-nm CMOS process, our RNG passed the FIPS 140–1 randomness test at a clock frequency of 100 MHz, boasting a remarkable throughput of 50 Mbps. This study represents a significant advancement in RNG technology, addressing previous shortcomings and paving the way for high-speed communication systems' secure cryptographic applications. [ABSTRACT FROM AUTHOR]
Databáze: Complementary Index