基于氧化物的RRAM电路设计模型:比较分析

2017 12th International Conference on Design & Technology of Integrated Systems In Nanoscale Era (DTIS) Pub Date : 2017-04-01 DOI:10.1109/DTIS.2017.7930176

Basma Hajri, Mohammad M. Mansour, A. Chehab, H. Aziza

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引用次数: 17

摘要

最近，基于氧化物的随机存取存储设备(OxRAM)由于其高可扩展性、高速、高密度和低能耗的操作，已经显示出超越非易失性存储器的潜力。在电路级使用OxRAM的一个关键要求是可用于模拟的器件行为预测模型，以及电路设计人员的指南。正确选择存储器件模型可以更好地理解存储细胞的行为，也可以在新系统中更好地利用其独特的特性。这项工作旨在帮助设计人员决定最适合电路设计的存储单元模型。我们提出了在同一仿真环境中测试的不同主要现有OxRAM模型的比较研究。

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Oxide-based RRAM models for circuit designers: A comparative analysis

Recently, Oxide-based random access memory devices (OxRAM) have shown the potential to outperform non-volatile memories due to their high scalability, high-speed, high-density, and low-energy operation. A critical requirement for using OxRAM at circuit level is a predictive model for device behavior that can be used in simulations, as well as a guide for circuit designers. The proper choice of the memory device model leads to a better understanding of the memory cell behavior, and also to a better exploitation of its unique properties in novel systems. This work is intended to help designers decide on the most appropriate memory cell model for circuit design. We present a comparative study of the different major existing OxRAM models tested within the same simulation environment.

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2017 12th International Conference on Design & Technology of Integrated Systems In Nanoscale Era (DTIS)

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