Evolution of functional correlation as an engineering directive for VLSI yield enhancement

Proceedings., Sixth International IEEE VLSI Multilevel Interconnection Conference Pub Date : 1989-06-12 DOI:10.1109/VMIC.1989.78032

R. Angell, C. Keith, C. Lukasik, J. Monk

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Abstract

The functional yield of a double-level metal CMOS process for fabrication of 5-V VLSI 10K-gate arrays was evaluated with large-area drop-in test structures designed to identify process yield loss mechanisms. The test structure yields were correlated to device functional yields. This analysis was able to quantitatively determine the yield limiting parameters by order of significance. Pareto problem ranking analysis provides specific directions to allocate engineering resources in yield enhancement efforts without first performing extensive failure analysis or experiments, or using intuitive rationale. This method shortens the evaluation cycle for identifying specific problems and solutions by using the product itself to uncover subtle yield relationships in an ongoing manner. This gives a clear direction for yield enhancement. After evaluation of several test parameters, using various yield models, it was determined that the Stapper model provided the best mathematical fit for comparing parametric to functional yields.<>

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功能相关的演化作为VLSI良率提升的工程指导

采用大面积插入式测试结构评估了用于制造5v VLSI 10k栅极阵列的双级金属CMOS工艺的功能良率，以确定工艺良率损失机制。测试结构产率与器件功能产率相关。该分析能够按显著性顺序定量确定产量限制参数。帕累托问题排序分析为分配工程资源以提高产量提供了具体的方向，而无需首先进行广泛的故障分析或实验，或使用直观的原理。该方法通过使用产品本身以持续的方式揭示微妙的产量关系，缩短了识别特定问题和解决方案的评估周期。这为提高产量指明了方向。在使用各种产量模型对几个试验参数进行评估后，确定了Stapper模型在比较参数产量和函数产量方面提供了最佳的数学拟合

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., Sixth International IEEE VLSI Multilevel Interconnection Conference

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