Breaking the energy Barrier in fault-tolerant caches for multicore systems

P. Ampadu, Meilin Zhang, V. Stojanović
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引用次数: 9

Abstract

Balancing cache energy efficiency and reliability is a major challenge for future multicore system design. Supply voltage reduction is an effective tool to minimize cache energy consumption, usually at the expense of increased number of errors. To achieve substantial energy reduction without degrading reliability, we propose an adaptive fault-tolerant cache architecture, which provides appropriate error control for each cache line based on the number of faulty cells detected at reduced supply voltages. Our experiments show that the proposed approach can improve energy efficiency by more than 25% and energy-execution time product by over 10%, while improving reliability up to 4X using Mean-Error-To-Failure (METF) metric, compared to the next-best solution at the cost of 0.08% storage overhead.
打破多核系统容错缓存中的能量屏障
平衡缓存的能量效率和可靠性是未来多核系统设计的主要挑战。降低电源电压是最小化缓存能耗的有效工具,通常以增加错误数量为代价。为了在不降低可靠性的情况下大幅降低能耗,我们提出了一种自适应容错缓存架构,该架构基于在降低电源电压下检测到的故障单元数量,为每条缓存线路提供适当的错误控制。我们的实验表明,所提出的方法可以将能源效率提高25%以上,将能源执行时间产品提高10%以上,同时使用平均错误到故障(METF)指标将可靠性提高4倍,与次优解决方案相比,成本为0.08%的存储开销。
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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