Modeling variability and irreproducibility of nanoelectronic resistive switches for circuit simulation

A. Heittmann, T. Noll
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引用次数: 1

Abstract

This paper presents a device model for nanoelectronic resistive switches which are based on the electrochemical metallization effect (ECM). The focus is set on modeling variability as well as irreproducibility which are essential properties of scaled nanoelectronic devices. In particular, a Poisson-based random ion deposition model and a non-linear filament surface effect are described. The model is especially useful for circuit simulation and can be implemented on standard circuit simulation platforms such as Spice or Spectre using inbuilt standard elements. Based on this model, effects of variability were examined by Monte Carlo simulation for a particular hybrid CMOS/nanoelectronic circuit. The results show that the proposed model is able to cover significant scaling effects, which is necessary for prospective design space exploration and circuit optimization.
电路仿真中纳米电子电阻开关的可变性和不可重复性建模
提出了一种基于电化学金属化效应(ECM)的纳米电子电阻开关器件模型。重点是建模可变性和不可重复性,这是缩放纳米电子器件的基本特性。特别地,描述了一个基于泊松的随机离子沉积模型和一个非线性的灯丝表面效应。该模型对电路仿真特别有用,可以使用内置的标准元件在Spice或Spectre等标准电路仿真平台上实现。在此模型的基础上,通过蒙特卡罗模拟对特定的CMOS/纳米混合电路进行了变异性的影响。结果表明,该模型能够覆盖显著的尺度效应,为前瞻性设计空间探索和电路优化提供了必要条件。
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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