Dimensionality Reduction and Clustering by Yield Signatures to Identify Candidates for Failure Analysis

James De La Torre, Don Kent, David Pivin, Eric St Pierre
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引用次数: 0

Abstract

Abstract The job of yield and failure analysis (YA and FA) engineers is to identify the root cause of low-yielding wafers. While physical FA is the most definitive method for determining root cause, resource limitations require YA engineers to search for root cause by identifying other wafers with similar yield signatures. The immense number of yield parameters, or features, collected in modern semiconductor processes makes this a difficult task. This paper presents a workflow employing multiple AI techniques to separate groups of wafers by their distinct yield signatures and determine the parameters most important to defining each group. This aids in the disposition of new low-yield wafers, maximizes the learning from previously collected FA wafers, and allows FA resources to be allocated more effectively, prioritizing them for the highest-impact, unknown fail modes.
基于良率特征的降维聚类分析
良率和失效分析(YA和FA)工程师的工作是找出低良率晶圆的根本原因。虽然物理FA是确定根本原因的最明确方法,但资源限制要求YA工程师通过识别具有类似良率特征的其他晶圆来搜索根本原因。在现代半导体工艺中收集的大量产量参数或特征使这一任务变得困难。本文提出了一种采用多种人工智能技术的工作流程,通过不同的产量特征来分离晶圆组,并确定定义每组晶圆最重要的参数。这有助于处理新的低产量晶圆,最大限度地从先前收集的FA晶圆中学习,并允许FA资源更有效地分配,优先考虑影响最大的未知故障模式。
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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