二维组合阵列故障检测的新方法

Proceedings 2001 IEEE International Symposium on Defect and Fault Tolerance in VLSI Systems Pub Date : 2001-10-24 DOI:10.1109/DFTVS.2001.966765

Xiao-Tao Chen, Wei-Kang Huang, N. Park, F. Meyer, F. Lombardi

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引用次数: 4

摘要

本文提出了组合单元正交(二维)阵列常(C)可检验性的新方法。引入了一种新的可测性条件，称为共可测性:一种基于向细胞表中添加状态的共可测性测试方法。本文还提出了第二种方法。这种方法基于向具有已知表的单元格添加可变数量的附加状态。该方法最多需要(m+k+/spl alpha/)(n+k+/spl alpha/)(m/k+1)(n/k+1)次测试，其中m和n是信号流两个维度的状态数，如果(部分)失败，可观测性适用于状态表，/spl alpha/=1(0)， k是每个方向的可变附加状态数(2/spl les/k/spl les/m.n)。作为一个例子，所提出的方法已应用于一个二维数组的最大/最小比较。

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Novel approaches for fault detection in two-dimensional combinational arrays

This paper presents new approaches for the constant (C)-testability of orthogonal (two-dimensional) arrays of combinational cells. A novel testability condition referred to as CO-testability is introduced: a testing approach for CO-testability is fully characterized based on adding states to the table of a cell. A second approach is also proposed. this approach is based on adding a variable number of additional states to a cell with a known table. This approach requires at most (m+k+/spl alpha/)(n+k+/spl alpha/)( m/k+1)(n/k+1) tests, where m and n are the number of states in the two dimensions of signal flow, /spl alpha/=1(0) if (partial) fail observability is applicable to the state table and k is the variable number of additional states per direction (2/spl les/k/spl les/m.n). As an example, the proposed approaches have been applied to a two-dimensional array for maximum/minimum comparison.

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Proceedings 2001 IEEE International Symposium on Defect and Fault Tolerance in VLSI Systems

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