Partial Gating Optimization for Power Reduction During Test Application

14th Asian Test Symposium (ATS'05) Pub Date : 2005-12-18 DOI:10.1109/ATS.2005.87

Mohammed ElShoukry, M. Tehranipoor, C. Ravikumar

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引用次数: 44

Abstract

Power reduction during test application is important from the viewpoint of chip reliability and for obtaining correct test results. One of the ways to reduce scan test power is to block transitions from propagating from the outputs of scan cells through combinational logic. In order to accomplish this, some authors have proposed the setting of primary inputs to appropriate values or adding extra gates at the outputs of scan cells. In this paper, we point out the limitations of such full gating technique. We propose an alternate solution where a partial set of scan cells is gated. The subset of scan cells is selected to give maximum reduction in test power within a given area constraint. An alternate formulation of the problem is to treat maximum permitted test power and area overhead as constraints and achieve a test power that is within these limits using the fewest number of gated scan cells, thereby leading to least impact in area overhead. Our problem formulation also comprehends performance constraints and prevents the inclusion of gating points on critical paths. The area overhead is predictable and closely corresponds to the average power reduction.

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在测试应用过程中降低功率的部分门控优化

从芯片可靠性和获得正确的测试结果的角度来看，测试应用过程中的功耗降低是重要的。降低扫描测试功率的方法之一是通过组合逻辑阻止从扫描单元输出传播的转换。为了实现这一目标，一些作者提出了将主输入设置为适当的值或在扫描单元的输出处添加额外的门。本文指出了这种全门控技术的局限性。我们提出了一种替代解决方案，其中部分扫描单元集是门控的。选择扫描单元的子集以在给定区域约束内最大限度地降低测试功率。该问题的另一种表述是将最大允许测试功率和面积开销作为约束，并使用最少数量的门控扫描单元实现在这些限制范围内的测试功率，从而导致对面积开销的影响最小。我们的问题表述也理解了性能约束，并防止在关键路径上包含门控点。面积开销是可预测的，并且与平均功耗降低密切相关。

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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14th Asian Test Symposium (ATS'05)

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