一种延迟弹性和容错缓存，用于提高低电压操作的性能和可靠性

VLSI Design, Automation and Test(VLSI-DAT) Pub Date : 2015-04-27 DOI:10.1109/VLSI-DAT.2015.7114576

Yung-Hui Yu, Po-Hao Wang, S. Tsai, Tien-Fu Chen

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引用次数: 1

摘要

由于工艺技术的萎缩，晶体管阈值电压(Vth)的变化越来越大，给SRAM单元带来了性能和可靠性问题。为了保持功率限制，在移动设备和未来的芯片中，减小供电电压是不可避免的。然而，缓存在低电压下甚至会失效，并且在新技术节点中访问延迟的分布会增加。为了应对现代处理器中可观的SRAM功率，存储器可靠性墙对当今缓存设计提出了重大挑战，并将持续数年。本文提出了一种弹性延迟容错缓存，不仅针对容错问题，而且针对性能问题。它改变缓存访问的延迟，以实现优于最坏情况的设计，从而提高性能。

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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A latency-elastic and fault-tolerant cache for improving performance and reliability on low voltage operation

The ever-increasing transistor threshold-voltage (Vth) variation caused by process technologies shrink brings the performance and reliability issues in SRAM cells. To keep power limitations, scaling down the supply voltage is inevitable in mobile devices and future chips. However, caches become susceptible even fail in low voltages, and the distribution of access latencies increases in new technology nodes. To deal with the respectable power of SRAM in modern processors, the memory reliability wall poses a major challenge in cache design nowadays and continues for years to come. This thesis proposes a latency-elastic and fault-tolerant cache not only for fault-tolerant, but aiming at the performance issues. It varies the latency of cache access to achieve better-than-worst-case designs for improving performance.

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VLSI Design, Automation and Test(VLSI-DAT)

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