改进的容错随机存取存储器芯片产率模型

[Proceedings] 1991 International Workshop on Defect and Fault Tolerance on VLSI Systems Pub Date : 1991-11-18 DOI:10.1109/DFTVS.1991.199944

C. Stapper

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引用次数: 9

摘要

介绍了具有冗余的存储芯片成品率建模方法的若干改进。首先，将缺陷监测数据转换为存储芯片故障的直接方法消除了对屈服模型公式的需要，从而可以通过冗余电路或其他容错技术对故障进行精确建模。这将导致松散耦合分布，而不是目前用于此类建模的多变量分布。此外，采用新的屈服公式对具有冗余字和位线的阵列孤岛的屈服进行了组合。给出了动态随机存取存储器(DRAM)芯片中使用该技术的实例。最后，讨论了一种简化的实用近似技术。

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Improved yield models for fault-tolerant random-access memory chips

Several improvements in the method of yield modeling for memory chips with redundancy are described. First, a direct method of translating defect-monitor data to memory-chip faults eliminates the need for yield-model formulas, making possible accurate modeling of the faults that can be fixed with redundant circuits or other fault-tolerance techniques. This results in loosely coupled distributions instead of the multivariate distributions used until now for such modeling. Furthermore, the yields of array islands with their own redundant word and bit lines are combined using a new yield formula. Examples of the use of this technique for dynamic random-access memory (DRAM) chips are given. Finally, a simplified pragmatic approximation technique is discussed.<>

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[Proceedings] 1991 International Workshop on Defect and Fault Tolerance on VLSI Systems

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