A 20F2 Area-Efficient Differential NAND-Structured Physically Unclonable Function for Low-Cost IoT Security

Jongmin Lee; Minsun Kim; Gicheol Shin; Yoonmyung Lee

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A 20F2 Area-Efficient Differential NAND-Structured Physically Unclonable Function for Low-Cost IoT Security

机译：用于低成本IOT安全的20F2区域有效的差分NAND结构物理不可透明的功能

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A differential NAND-structured physically unclonable function (PUF) with 20F^{2 area per bit is proposed for cost-effective Internet of Things applications. With the area-efficient NAND-array structure, a key bit is generated from a pair of minimum-sized nMOS transistors by effectively amplifying threshold voltage (V_th) mismatch. By utilizing the near-threshold current of the examined transistors, high sensitivity to V_th variation, which is desired for stability, and faster operation than leakage current-based PUFs is achieved. An offset-compensated comparison scheme is provided to accurately determine the key value without bias. The proposed PUF achieves 0.06% BER and 0.53% unstable bits with TMV11 while reducing the area by an order of magnitude compared with state-of-the-art CMOS-based PUFs.}

机译：具有20F的差动NAND结构的物理不可渗透功能（PUF）^{2 为每位的面积用于成本效益的东西互联网应用。利用面积效率的NAND阵列结构，通过有效放大阈值电压，从一对最小尺寸的NMOS晶体管产生键位（V._{th ）不匹配。通过利用所检查晶体管的近阈值电流，对V的高灵敏度_{th 达到稳定性的变化，并且实现比漏电流的PUFS更快速的操作。提供偏移补偿的比较方案以准确地确定没有偏置的键值。所提出的PUF与TMV11的0.06％BER和0.53％不稳定位，同时通过基于最先进的CMOS的PUF来减少面积的数量级。}}}

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来源
《IEEE Solid-State Circuits Letters》 |2019年第9期|139-142|共4页
作者
Jongmin Lee; Minsun Kim; Gicheol Shin; Yoonmyung Lee;
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作者单位

Department of Electrical and Computer Engineering Sungkyunkwan University Suwon South Korea;

Department of Electrical and Computer Engineering Sungkyunkwan University Suwon South Korea;

Department of Electrical and Computer Engineering Sungkyunkwan University Suwon South Korea;

Department of Electrical and Computer Engineering Sungkyunkwan University Suwon South Korea;

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原文格式 PDF
正文语种 eng
中图分类
关键词
MOSFET; Internet of Things; Security; Prototypes; Temperature measurement;

机译：MOSFET;东西互联网;安全性;原型;温度测量;
入库时间 2022-08-18 22:09:11

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机译：一种354F2基于泄漏的物理不可渗透功能，通过Remapping进行无损稳定，以便低成本IOT安全性
2. Organic physically unclonable function on flexible substrate operable at 2 V for IoT/IoE security applications [J] . Organic Electronics . 2017,第DECa期

机译：在IoT / IoE安全应用中可在2 V电压下运行的柔性基板上的有机物理不可克隆功能
3. Multigated Carbon Nanotube Field Effect Transistors-Based Physically Unclonable Functions As Security Keys [J] . Kumar Nitish, Chen Jialuo, Kar Monodeep, Internet of Things Journal, IEEE . 2019,第1期

机译：基于多层碳纳米管场效应晶体管的物理不可克隆功能作为安全密钥
4. A 445F² leakage-based physically unclonable Function with Lossless Stabilization Through Remapping for IoT Security [C] . Jongmin Lee, Donghyeon Lee, Yongmin Lee, IEEE International Solid- State Circuits Conference . 2018

机译：445F ^{2 基于泄漏的物理不可克隆功能，通过重新映射实现物联网安全无损稳定}
5. SR Flip-flop Based Physically Unclonable Function (PUF) for Hardware Security [D] . Challa, Rohith Prasad 2018

机译：基于硬件安全的SR FLIP-FLOP基于物理不可渗透功能（PUF）
6. Design of Resistor-Capacitor Physically Unclonable Function for Resource-Constrained IoT Devices [O] . Sangjae Lee, Mi-Kyung Oh, Yousung Kang, 2020

机译：资源受限物联网设备的电阻电容物理不可克隆功能设计
7. Hardware Intrinsic Security from Physically Unclonable Functions [O] . Helena H, Geert-jan Schrijen, Pim Tuyls 2014

机译：物理不可克隆函数的硬件内在安全性

A 20F2 Area-Efficient Differential NAND-Structured Physically Unclonable Function for Low-Cost IoT Security

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