三维吊床网络可靠性研究

2018 IEEE 12th International Symposium on Applied Computational Intelligence and Informatics (SACI) Pub Date : 2018-05-01 DOI:10.1109/SACI.2018.8441003

N. Rohatinovici, O. Proștean, V. Balas

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引用次数: 2

摘要

可靠和精确的信号传输是实际和未来使用纳米技术的设备所必需的。我们认为吊床网络是摩尔和香农在1956年提出的。一些基于阵列的器件(开关、finfet和其他纳米晶体管)非常适合使用吊床网络进行建模。本文提出了一种新的方法来建模和理解三维吊床网络。在这种新方法中，我们从Moore-Shannon提供的2D吊床网络的定义开始，然后我们从之前的2.5D模型中获得灵感，分别是3D吊床网络。我们对它们进行了分析，以评估它们的可靠性，最后我们将之前得到的结果与我们的新结果进行了比较。这篇论文的灵感来源于轴突内部的结构。仿真基于可靠性多项式。最后对不同场景下三维吊床网络的可靠性进行了比较，并提出了今后研究的方向。

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On Reliability of 3D Hammock Networks

Reliable and precise signal transmission is required for actual and future devices using nanotechnologies. We consider the hammock networks as they were introduced by Moore and Shannon in 1956. Some devices array-based (switches, FinFETs and other nanotransistors) are perfect fit to modeling using hammock networks. This paper brings a fresh approach on modelling and understanding the 3D hammock networks. In this new approach we start from the definition of 2D hammock networks offered by Moore-Shannon and then we took inspiration from our previous models made for 2.5D, respectively 3D hammock networks. We analyze them in order to evaluate their reliability, and in the end we compare the previous results obtained with our fresh results. The source of inspiration for this paper is the structure found inside axons. The simulations proposed relay on reliability polynomials. In the end we compare the results obtained for reliability of 3D hammock networks for different scenarios and present some future directions to be studied in our research.

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来源期刊

2018 IEEE 12th International Symposium on Applied Computational Intelligence and Informatics (SACI)

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