A Built-in Test and Characterization Method for Circuit Marginality Related Failures

9th International Symposium on Quality Electronic Design (isqed 2008) Pub Date : 2008-03-17 DOI:10.1109/ISQED.2008.51

A. Sanyal, S. Kundu

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引用次数: 2

Abstract

With the advent of ultra deep-submicron (UDSM) regime of integrated circuits, the issues with circuit marginality related transient failures are on the rise. An example of such failures is the thermal hotspot-induced ones, which are common when a particular functional unit experiences high switching activity for a considerable duration. In this paper, we propose an on-line hotspot-induced transient failure testing scheme using the built-in self-test (BlST)-based approach which accurately distinguishes such a transient failure from a hard fail and greatly reduces the test cost by dissociating a tester from the test process. We apply the principle of Fmax testing based on frequency shmoo to obtain the maximum safe operating frequency for individual functional units in a chip. We also propose a DFT scheme to characterize the impact of a "hot" unit on its neighborhood and also the influence of a "hot" neighborhood on an otherwise "cold" unit in the reverse way. Thus the proposed architecture extends the capability of the conventional BIST to test a certain class of circuit marginality related transient failures with a very low hardware overhead.

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电路边际性相关故障的内置测试和表征方法

随着集成电路超深亚微米(UDSM)体系的出现，与电路边际性相关的瞬态故障问题日益增多。这种故障的一个例子是热热点引起的故障，当一个特定的功能单元在相当长的时间内经历高开关活动时，这种故障很常见。在本文中，我们提出了一种基于内置自检(BlST)的在线热点诱发瞬态故障测试方案，该方案能够准确区分瞬态故障和硬故障，并通过将测试人员与测试过程分离来大大降低测试成本。我们应用基于频率shmoo的Fmax测试原理来获得芯片中各个功能单元的最大安全工作频率。我们还提出了一种DFT方案来表征“热”单元对其邻域的影响，以及“热”邻域以相反的方式对“冷”单元的影响。因此，所提出的体系结构扩展了传统BIST的能力，以非常低的硬件开销测试某类电路边际性相关的瞬态故障。

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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9th International Symposium on Quality Electronic Design (isqed 2008)

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