Evaluating voltage islands in CMPs under process variations

2007 25th International Conference on Computer Design Pub Date : 2007-10-01 DOI:10.1109/ICCD.2007.4601891

Abhishek Das, S. Ozdemir, G. Memik, A. Choudhary

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引用次数: 22

Abstract

Parameter variations are a major factor causing power-performance asymmetry in chip multiprocessors. In this paper, we analyze the effects of with-in-die (WID) process variations on chip multicore processors and then apply a variable voltage island scheme to minimize power dissipation. Our idea is based on the observation that due to process variations, the critical paths in each core are likely to have a different latencies resulting in core-to-core (C2C) variations. As a result, each core can operate correctly under different supply voltage levels, achieving an optimal power consumption level. Particularly, we analyze voltage islands at different granularities ranging from a single core to a group of cores. We show that the dynamic power consumption can be reduced by up to 36.2% when each core can set its individual supply voltage level. In addition, for most manufacturing technologies, significant power savings can be achieved with only a few voltage islands on the whole chip: a single customized voltage setting can reduce the power consumption by up to 31.5%. Since the nominal operating frequency remains unchanged after the modifications, our scheme incurs no performance overhead.

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工艺变化下cmp电压岛的评估

在芯片多处理器中，参数变化是导致功率性能不对称的主要因素。在本文中，我们分析了芯片内(WID)工艺变化对芯片多核处理器的影响，然后应用可变电压岛方案来最小化功耗。我们的想法是基于这样的观察，即由于进程变化，每个核心中的关键路径可能具有不同的延迟，从而导致核心到核心(C2C)变化。因此，每个核心可以在不同的电源电压水平下正常工作，实现最佳的功耗水平。特别是，我们分析了从单个磁芯到一组磁芯的不同粒度的电压岛。我们表明，当每个核心可以设置其单独的电源电压水平时，动态功耗可降低36.2%。此外，对于大多数制造技术而言，仅通过整个芯片上的几个电压孤岛就可以实现显著的节能:单个定制电压设置可以将功耗降低高达31.5%。由于标称工作频率在修改后保持不变，因此我们的方案不会产生性能开销。

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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2007 25th International Conference on Computer Design

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