SER mitigation technique through selective flip-flop replacement

2015 6th Asia Symposium on Quality Electronic Design (ASQED) Pub Date : 2015-09-24 DOI:10.1109/ACQED.2015.7274002

Pavan Vithal Torvi, V. Devanathan, Ashish Vanjari, V. Kamakoti

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引用次数: 2

Abstract

The advancement in the semiconductor manufacturing process has reduced the device dimensions, which in turn has reduced design and manufacturing costs of the Integrated Chips (IC). This has accelerated the IC penetration in automobiles, health care and safety critical systems. However, the smaller device dimensions have made the ICs vulnerable to soft-errors. The sequential cells in a given design contribute significantly to its soft-error rate (SER). Some of the soft-errors get masked and do not cause any adverse impact. The masking can occur due to logic or timing reasons. This paper presents a flow that uses the Timing Vulnerability Factor (TVF) and Architecture Vulnerability Factor (AVF) of the sequential instances in a given design to reduce its soft-error rate (SER). The paper proposes a novel method to efficiently compute the TVF and AVF parameters followed by a linear programming technique that uses these parameters to reduce the SER of the given design. Using the proposed technique, we have reduced the sequential cell contribution to the SER of an in-house IP design by 36% for an increase of 9% in sequential cells area.

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选择性触发器替换的SER缓解技术

半导体制造工艺的进步使器件尺寸减小，从而降低了集成芯片(IC)的设计和制造成本。这加速了集成电路在汽车、医疗保健和安全关键系统中的渗透。然而，较小的设备尺寸使ic容易受到软错误的影响。给定设计中的顺序单元对其软错误率(SER)有很大贡献。一些软错误被掩盖，不会造成任何不利影响。屏蔽可能是由于逻辑或时间原因造成的。本文提出了一种利用给定设计中顺序实例的时序脆弱性因子(TVF)和体系结构脆弱性因子(AVF)来降低其软错误率的流程。本文提出了一种新的方法来有效地计算TVF和AVF参数，然后采用线性规划技术利用这些参数来降低给定设计的SER。使用所提出的技术，我们将内部IP设计的顺序单元对SER的贡献减少了36%，而顺序单元面积增加了9%。

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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2015 6th Asia Symposium on Quality Electronic Design (ASQED)

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