On the robustness of memristor based logic gates

2017 IEEE 20th International Symposium on Design and Diagnostics of Electronic Circuits & Systems (DDECS) Pub Date : 2017-04-01 DOI:10.1109/DDECS.2017.7934559

Lei Xie, Hoang Anh Du Nguyen, Jintao Yu, M. Taouil, S. Hamdioui

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引用次数: 7

Abstract

As today's CMOS technology is scaling down to its physical limits, it suffers from major challenges such as increased leakage power and reduced reliability. Novel technologies, such as memristors, nanotube, and graphene transistors, are under research as alternatives. Among these technologies, memristor is a promising candidate due to its great scalability, high integration density and near-zero standby power. However, memristor-based logic circuits are facing robustness challenges mainly due to improper values of design parameters (e.g., OFF/ON ratio, control voltages). Moreover, process variation, sneak path currents and parasitic resistance of nanowires also impact the robustness. To realize a robust design, this paper formulates proper constraints for design parameters to guarantee correct functionality of logic gates (e.g., AND). Our proposal is verified with SPICE simulations while taking both device variation and parasitic effects into account. It is observed that the errors due to analytical parameter constraints are typically within 4.5% as compared to simulations.

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基于忆阻器的逻辑门的鲁棒性研究

由于今天的CMOS技术正在缩小到其物理极限，它面临着诸如泄漏功率增加和可靠性降低等重大挑战。新的技术，如忆阻器、纳米管和石墨烯晶体管，正在研究作为替代品。在这些技术中，忆阻器因其高可扩展性、高集成度和接近于零的待机功耗而成为一个有前途的候选技术。然而，基于忆阻器的逻辑电路面临着鲁棒性的挑战，这主要是由于设计参数(如OFF/ON比、控制电压)的值不合适。此外，工艺变化、隐性路径电流和纳米线的寄生电阻也会影响鲁棒性。为了实现稳健设计，本文对设计参数制定了适当的约束，以保证逻辑门(如AND)的正确功能。在考虑器件变化和寄生效应的情况下，我们的建议通过SPICE模拟进行了验证。与模拟结果相比，由于解析参数约束的误差通常在4.5%以内。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2017 IEEE 20th International Symposium on Design and Diagnostics of Electronic Circuits & Systems (DDECS)

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