In-situ characterization and extraction of SRAM variability

Proceedings. Design Automation Conference Pub Date : 2010-06-13 DOI:10.1145/1837274.1837454

S. Chellappa, Jia Ni, Xiaoyin Yao, N. Hindman, J. Velamala, Min Chen, Yu Cao, L. Clark

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引用次数: 7

Abstract

Measurement and extraction of as fabricated SRAM cell variability is essential to process improvement and robust design. This is challenging in practice, due to the complexity in the test procedure and requisite numerical analysis. This work proposes a new single-ended test procedure for SRAM cell write margin measurement. Moreover, an efficient decomposition method is developed to extract transistor threshold voltage (VTH) variations from the measurements, allowing accurate determination of SRAM cell stability. The entire approach is demonstrated in a 90 nm test chip with 32 K cells. The advantages of the proposed method include: (1) a single-ended SRAM test structure with no disturbance to SRAM operations; (2) a convenient test procedure that only requires quasi-static control of external voltages; and (3) a non-iterative method that extracts the VTH variation of each transistor from eight measurements. The new procedure enables accurate predictions of SRAM performance variability. As validated with 90 nm data of write margin and data retention voltage, the prediction error from extracted VTH variations is <; 4% at all corners.

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SRAM变异性的原位表征与提取

测量和提取预制SRAM单元变异性对工艺改进和稳健设计至关重要。由于测试过程的复杂性和必要的数值分析，这在实践中是具有挑战性的。本文提出了一种新的SRAM单元写裕度测量单端测试程序。此外，开发了一种有效的分解方法，从测量中提取晶体管阈值电压(VTH)变化，从而准确确定SRAM电池的稳定性。整个方法在具有32 K细胞的90 nm测试芯片上进行了演示。该方法的优点包括:(1)单端SRAM测试结构，对SRAM运行无干扰;(2)方便的测试程序，只需要对外部电压进行准静态控制;(3)一种非迭代方法，从八次测量中提取每个晶体管的VTH变化。新程序能够准确预测SRAM性能的可变性。用90 nm的写余量和数据保留电压数据验证，提取的VTH变化预测误差<;每个角落都有4%。

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. Design Automation Conference

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