Optimization of Random Telegraph Noise Characteristics in Memristor for True Random Number Generator

Min Suk Song; Tae Hyeon Kim; Hwiho Hwang; Suhyeon Ahn; Hussein Nili; Hyungjin Kim

doi:10.1002/aisy.202200358

Optimization of Random Telegraph Noise Characteristics in Memristor for True Random Number Generator

Min Suk Song, Tae Hyeon Kim, Hwiho Hwang, Suhyeon Ahn, Hussein Nili, Hyungjin Kim

Dept. of Semiconductor Engineering

Research output: Contribution to journal › Article › peer-review

21 Scopus citations

Abstract

Memristor devices can be utilized for various computing applications, and stochastic computing is one of them. The intrinsic stochastic characteristics of the memristor cause unpredictable current fluctuations by the capture and emission of electrons in a trap site. Herein, a true random number generator (TRNG) using the random telegraph noise (RTN) of the memristor as an entropy source is proposed. TiO_x/Al₂O₃ memristors are fabricated, and the capture time probability of the RTN characteristics is modulated to 50% with varying read-voltage and device conductance state. In addition, the TRNG operations with the RTN current signals as entropy sources are experimentally demonstrated with a customized breadboard, and the randomness is verified with the National Institute of Standards and Technology (NIST) tests.

Original language	English
Article number	2200358
Journal	Advanced Intelligent Systems
Volume	5
Issue number	5
DOIs	https://doi.org/10.1002/aisy.202200358
State	Published - May 2023

Keywords

memristor
multilevel switching
random telegraph noise
stochastic computing
true random number generator

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10.1002/aisy.202200358

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title = "Optimization of Random Telegraph Noise Characteristics in Memristor for True Random Number Generator",

abstract = "Memristor devices can be utilized for various computing applications, and stochastic computing is one of them. The intrinsic stochastic characteristics of the memristor cause unpredictable current fluctuations by the capture and emission of electrons in a trap site. Herein, a true random number generator (TRNG) using the random telegraph noise (RTN) of the memristor as an entropy source is proposed. TiOx/Al2O3 memristors are fabricated, and the capture time probability of the RTN characteristics is modulated to 50\% with varying read-voltage and device conductance state. In addition, the TRNG operations with the RTN current signals as entropy sources are experimentally demonstrated with a customized breadboard, and the randomness is verified with the National Institute of Standards and Technology (NIST) tests.",

keywords = "memristor, multilevel switching, random telegraph noise, stochastic computing, true random number generator",

author = "Song, \{Min Suk\} and Kim, \{Tae Hyeon\} and Hwiho Hwang and Suhyeon Ahn and Hussein Nili and Hyungjin Kim",

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T1 - Optimization of Random Telegraph Noise Characteristics in Memristor for True Random Number Generator

AU - Song, Min Suk

AU - Kim, Tae Hyeon

AU - Hwang, Hwiho

AU - Ahn, Suhyeon

AU - Nili, Hussein

AU - Kim, Hyungjin

PY - 2023/5

Y1 - 2023/5

N2 - Memristor devices can be utilized for various computing applications, and stochastic computing is one of them. The intrinsic stochastic characteristics of the memristor cause unpredictable current fluctuations by the capture and emission of electrons in a trap site. Herein, a true random number generator (TRNG) using the random telegraph noise (RTN) of the memristor as an entropy source is proposed. TiOx/Al2O3 memristors are fabricated, and the capture time probability of the RTN characteristics is modulated to 50% with varying read-voltage and device conductance state. In addition, the TRNG operations with the RTN current signals as entropy sources are experimentally demonstrated with a customized breadboard, and the randomness is verified with the National Institute of Standards and Technology (NIST) tests.

AB - Memristor devices can be utilized for various computing applications, and stochastic computing is one of them. The intrinsic stochastic characteristics of the memristor cause unpredictable current fluctuations by the capture and emission of electrons in a trap site. Herein, a true random number generator (TRNG) using the random telegraph noise (RTN) of the memristor as an entropy source is proposed. TiOx/Al2O3 memristors are fabricated, and the capture time probability of the RTN characteristics is modulated to 50% with varying read-voltage and device conductance state. In addition, the TRNG operations with the RTN current signals as entropy sources are experimentally demonstrated with a customized breadboard, and the randomness is verified with the National Institute of Standards and Technology (NIST) tests.

KW - memristor

KW - multilevel switching

KW - random telegraph noise

KW - stochastic computing

KW - true random number generator

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U2 - 10.1002/aisy.202200358

DO - 10.1002/aisy.202200358

M3 - Article

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JO - Advanced Intelligent Systems

JF - Advanced Intelligent Systems

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ER -

Optimization of Random Telegraph Noise Characteristics in Memristor for True Random Number Generator

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