随机性
随机数生成
计算机科学
随机性试验
NIST公司
熵(时间箭头)
密码学
伪随机数发生器
晶体管
算法
电气工程
数学
统计
物理
工程类
电压
自然语言处理
量子力学
作者
Seung-Il Kim,Hyeong-Jin You,Myung‐Su Kim,U. Parul An,Moon‐Seok Kim,Do Hoon Lee,Seung‐Tak Ryu,Yang‐Kyu Choi
出处
期刊:Science Advances
[American Association for the Advancement of Science]
日期:2024-02-23
卷期号:10 (8): eadk6042-eadk6042
被引量:20
标识
DOI:10.1126/sciadv.adk6042
摘要
We design a cryptographic transistor (cryptoristor)–based true random number generator (tRNG) with low power consumption and small footprint. This is the first attempt to use irregular and unpredictable operation-induced randomness of a cryptoristor as an entropy source. To extract discrete random numbers with a binary code from the cryptoristor, we developed a noise-coupling analog-to-digital converter. This converter not only converts analog signals to digital random bits but also improves the randomness of the entropy source with low power consumption. The randomness of the cryptoristor is attributed to the random carrier multiplications with the creation and stochastic carrier escape as destruction, which occurs iteratively as long as the input current is fed. The cryptoristor-based tRNG passed 15 randomness test suites of NIST Special Publication 800-22. It is robust to iterative operational stresses and to ambient temperature changes, making it an attractive option for hardware-based security solutions in the Internet of Things due to its low power consumption and small size.
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