基于ecc的记忆修复迭代诊断方法

2013 IEEE 31st VLSI Test Symposium (VTS) Pub Date : 2013-04-29 DOI:10.1109/VTS.2013.6548928

P. Papavramidou, M. Nicolaidis

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引用次数: 15

摘要

在现代soc中，嵌入式存储器应该进行修复以达到可接受的成品率。它们还应该由ECC保护，防止现场故障，以达到可接受的可靠性。在受高缺陷密度影响的技术中，常规修复的成本非常高。为了减少错误，我们可以使用ECC来修复包含单个错误单元的单词，并修复所有其他错误单词。然而，研究表明，对于高缺陷密度，基于ecc的修复所需的诊断可能会产生非常大的成本。在以前的工作中，这个问题是通过新的内存测试算法解决的，该算法显示了所谓的“单读双故障检测”属性。由于这些算法复杂且增加了测试长度，我们探索了一种新的迭代诊断方法，该方法在硬件成本和测试长度方面提供了折衷。

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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An iterative diagnosis approach for ECC-based memory repair

In modern SoCs embedded memories should be repaired to achieve acceptable yield. They should also be protected by ECC against field failures to achieve acceptable reliability. In technologies affected by high defect densities, conventional repair induce very high costs. To reduce them, we can use ECC to fix words comprising a single faulty cell and repair to fix all other faulty words. However it was shown that, for high defect densities, the diagnosis required for ECC-based repair may induce very large cost. In previous work this issue was fixed by means of new memory test algorithms that exhibit the so-called “single-read double-fault detection” property. As these algorithms are complex and increase test length, we explore a new iterative diagnosis approach, which provides tradeoffs in terms of hardware cost and test length.

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2013 IEEE 31st VLSI Test Symposium (VTS)

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