On the Error Effects of Random Clock Shifts in Quantum-dot Cellular Automata Circuits

22nd IEEE International Symposium on Defect and Fault-Tolerance in VLSI Systems (DFT 2007) Pub Date : 2007-09-26 DOI:10.1109/DFT.2007.58

M. Ottavi, H. Hashempour, V. Vankamamidi, F. Karim, K. Waluś, A. Ivanov

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引用次数: 7

Abstract

This paper analyzes the effect of random phase shifts in the underlying clock signals on the operation of several basic quantum-dot cellular automata (QCA) building blocks. Such phase shifts can result from manufacturing variations or from uneven path lengths in the clocking network. While previous literature has proposed various clock distribution architectures and also provided analysis of manufacturing variations on QCA layouts, so far no literature is available on the characterization of effects resulting from the lack of phase synchronization in the QCA clocks. We perform numerical simulations of these basic building blocks using two different simulation engines available in the QCADesigner tool. We assume that the phase shifts are characterized by a Gaussian distribution with a mean value of ipi/2, where i is the clock number. Our results indicate that the sensitivity of building blocks to phase shifts depends primarily on the layout of the building block, and that most building blocks were able to operate properly under random phase shifts characterized by sigma= 5% pi/2.

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量子点元胞自动机电路中随机时钟移位的误差效应

本文分析了底层时钟信号中的随机相移对几种基本量子点元胞自动机(QCA)构件运行的影响。这种相移可以由制造变化或时钟网络中不均匀的路径长度引起。虽然以前的文献已经提出了各种时钟分布架构，并提供了对QCA布局的制造变化的分析，但到目前为止，还没有文献可用于描述由于QCA时钟缺乏相位同步而产生的影响。我们使用qcaddesigner工具中提供的两种不同的仿真引擎对这些基本构建块执行数值模拟。我们假设相移的特征为高斯分布，其平均值为ipi/2，其中i为时钟数。我们的研究结果表明，构建块对相移的灵敏度主要取决于构建块的布局，并且大多数构建块能够在sigma= 5% pi/2的随机相移下正常工作。

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

22nd IEEE International Symposium on Defect and Fault-Tolerance in VLSI Systems (DFT 2007)

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