Fault modeling and pattern-sensitivity testing for a multilevel DRAM

Proceedings of the 2002 IEEE International Workshop on Memory Technology, Design and Testing (MTDT2002) Pub Date : 2002-07-10 DOI:10.1109/MTDT.2002.1029772

M. Redeker, B. Cockburn, D. Elliott, Y. Xiang, S. A. Ung

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引用次数: 2

Abstract

Multilevel dynamic random-access memory (MLDRAM) attempts to increase the storage density of semiconductor memory without further reducing the lithographic dimensions. It does so by using more than two possible signal voltages on each cell capacitor thus permitting more than one bit to be stored in each cell. Birk's MLDRAM scheme has several promising properties, including robust locally-generated data signal and reference signal generation, and fast flash-conversion sensing. This paper describes a fault model for Birk's MLDRAM that was developed by considering the behaviors produced by likely defects at the schematic level. The resulting behaviors include faults that are detectable as observable logical errors, faults that can be detected by current measurements, and faults that, in the worst case, can only be detected by testing for degraded noise margins. All Boolean faults in the fault model can be detected by an efficient test whose length grows linearly in the number of cells. The narrower noise margins in MLDRAM will make it more vulnerable to pattern sensitivities. We also developed a linear test that evaluates worst-case sensing conditions.

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多电平DRAM的故障建模和模式灵敏度测试

多电平动态随机存取存储器(MLDRAM)试图在不进一步减小光刻尺寸的情况下增加半导体存储器的存储密度。它通过在每个单元电容器上使用两个以上可能的信号电压来实现，从而允许在每个单元中存储一个以上的比特。Birk的MLDRAM方案具有几个有前途的特性，包括鲁棒的本地生成数据信号和参考信号生成，以及快速的闪存转换传感。本文描述了一种基于原理图级别的故障模型，该模型考虑了可能的缺陷所产生的行为。由此产生的行为包括可以作为可观察的逻辑错误检测到的错误，可以通过当前测量检测到的错误，以及在最坏的情况下只能通过测试退化的噪声边界来检测到的错误。故障模型中的所有布尔故障都可以通过一个有效的测试来检测，该测试的长度随单元数线性增长。MLDRAM中较窄的噪声边界将使其更容易受到模式灵敏度的影响。我们还开发了一个线性测试来评估最坏的传感条件。

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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Proceedings of the 2002 IEEE International Workshop on Memory Technology, Design and Testing (MTDT2002)

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