用于3d - cpu的电压噪声诱导DRAM软误差降低技术

Proceedings of the 2016 International Symposium on Low Power Electronics and Design Pub Date : 2016-08-08 DOI:10.1145/2934583.2934589

Tiantao Lu, Caleb Serafy, Zhiyuan Yang, Ankur Srivastava

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引用次数: 5

摘要

三维集成可以将DRAM堆叠在CPU之上，提供高带宽和短延迟。然而，CPU层的不均匀电压波动和局部热热点耦合到DRAM层，导致不均匀的位元泄漏(从而导致位翻转)分布。我们提出了一个性能-功率弹性仿真框架来捕获3D多核CPU系统中的DRAM软错误。研究了一种动态弹性管理(DRM)方案，该方案自适应调整CPU的工作点，以调整运行时的电压噪声和热状态。DRM采用动态频率缩放来实现弹性借用策略，在不牺牲性能的情况下有效地增强了DRAM的弹性。

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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Voltage Noise Induced DRAM Soft Error Reduction Technique for 3D-CPUs

Three-dimensional integration enables stacking DRAM on top of CPU, providing high bandwidth and short latency. However, non-uniform voltage fluctuation and local thermal hotspot in CPU layers are coupled into DRAM layers, causing a non-uniform bit-cell leakage (thereby bit flip) distribution. We propose a performance-power-resilience simulation framework to capture DRAM soft error in 3D multi-core CPU systems. A dynamic resilience management (DRM) scheme is investigated, which adaptively tunes CPU's operating points to adjust DRAM's voltage noise and thermal condition during runtime. The DRM uses dynamic frequency scaling to achieve a resilience borrow-in strategy, which effectively enhances DRAM's resilience without sacrificing performance.

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Proceedings of the 2016 International Symposium on Low Power Electronics and Design

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