Resistive RAM SET and RESET Switching Voltage Evaluation as an Entropy Source for Random Number Generation

机译：电阻RAM SET和RESET开关电压评估作为产生随机数的熵源

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The intrinsic variability of the switching parameters in resistive memories has been a major wall that limits their adoption as the next generation memories. In contrast, this natural stochasticity can be beneficial for other applications such as Random Number Generators (RNGs). This paper presents two RNG approaches relying on a 130nm HfO2-based Resistive RAM (RRAM) memory array. The memory array is programmed with a voltage close to the median value of the SET (resp. RESET) voltage distribution to benefit from the SET (resp. RESET) voltage variability. In both cases, only a subset of the memory array is programmed, resulting in a stochastic distribution of cell resistance values. Resistance values are next converted into a bit stream and confronted to National Institute of Standards and Technology (NIST) test benchmarks.

机译：阻性存储器中开关参数的固有可变性已成为限制其被用作下一代存储器的主要障碍。相反，这种自然的随机性可能对诸如随机数生成器（RNG）之类的其他应用程序有益。本文介绍了两种依赖130nm HfO的RNG方法 2 基于的电阻RAM（RRAM）内存阵列。利用接近SET（复位）电压分布的中值的电压对存储器阵列进行编程，以受益于SET（复位）电压的可变性。在这两种情况下，仅对存储器阵列的一个子集进行编程，从而导致单元电阻值的随机分布。接下来，将电阻值转换为比特流，并将其与美国国家标准技术研究院（NIST）的测试基准相对。

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《IEEE International Symposium on Defect and Fault Tolerance in VLSI and Nanotechnology Systems》|2020年|1-4|共4页
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Hussein Bazzi; Jeremy Postel-Pellerin; Hassen Aziza; Mathieu Moreau; Adnan Harb;
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Resistance; Switches; NIST; Generators; Two dimensional displays; Device-to-device communication; Random number generation;

机译：电阻;开关; NIST;发电机;二维显示;设备间通信;随机数生成;

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专利

1. Effect of RESET Voltage on Distribution of SET Switching Time of Bipolar Resistive Switching in a Tantalum Oxide Thin Film [J] . Nishi Yoshifumi, Fleck Karsten, Bottger Ulrich, Electron Devices, IEEE Transactions on . 2015,第5期

机译：RESET电压对氧化钽薄膜中双极电阻开关SET开关时间分布的影响
2. Endurance Enhancement and High Speed Set/Reset of 50 nm Generation HfO_2 Based Resistive Random Access Memory Cell by Intelligent Set/Reset Pulse Shape Optimization and Verify Scheme [J] . Kazuhide Higuchi, Kousuke Miyaji, Koh Johguchi, Japanese journal of applied physics . 2012,第2Issue2期

机译：通过智能设置/重置脉冲形状优化和验证方案，增强耐久性和50 nm世代基于HfO_2的电阻随机存取存储单元的高速设置/重置
3. Light-Assisted Resistive Switching Memory Device with Reduced SET/RESET Voltage Using Sol–Gel TiO_2 on Al-Doped ZnO Electrode [J] . Shuvaraj Ghosh, Durga Basak Physica status solidi (a) Applications and materials science . 2021,第14期

机译：光辅电阻切换存储器件，具有减小的设定/复位电压，使用溶胶 - 凝胶TiO_2在Al掺杂的ZnO电极上
4. Set and Reset Voltage Interdependence in Resistive Switching Memory Cells [C] . G. Ghosh, M. Orlowski Symposium on nonvolatile memories;Meeting of The Electrochemical Society . 2015

机译：电阻式开关存储单元中的设置和复位电压相关性
5. A study of entropy sources in Cloud computers: Random number generation on Cloud hosts. [D] . Kerrigan, Brendan. 2012

机译：对云计算机中的熵源的研究：云主机上的随机数生成。
6. Power- and Low-Resistance-State-Dependent Bipolar Reset-Switching Transitions in SiN-Based Resistive Random-Access Memory [O] . Sungjun Kim, Byung-Gook Park 2016

机译：基于SiN的电阻式随机存取存储器中与功率和低电阻状态相关的双极性复位开关转换
7. A Maximum Entropy Multisource Information Fusion Method to Evaluate the MTBF of Low-Voltage Switchgear [O] . Jing-Qin Wang, Zhi-Gang Zhang, Ching-Hsin Wang, 2018

机译：一种评估低压开关设备MTBF的最大熵多源信息融合方法

Resistive RAM SET and RESET Switching Voltage Evaluation as an Entropy Source for Random Number Generation

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