深亚微米微处理器的微架构功率建模技术

N. Kim, Taeho Kgil, V. Bertacco, T. Austin, T. Mudge
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引用次数: 20

摘要

由于功率已经成为一个重要的设计约束,因此执行将架构模拟与功率估计相结合的早期设计研究的需求已经变得至关重要。为了满足这一需求,围绕SimpleScalar(一个广泛使用的微架构性能模拟器)开发了几个微架构功耗模拟器,它们在提供功耗/性能权衡方面非常有用。然而,它们既不是参数化的,也不是技术可扩展的。在本文中,我们提出了更准确的参数化功率建模技术,反映了实际的技术参数以及存储器和执行单元的输入切换事件。与HSPICE相比,所提出的技术在这些块上的准确率分别为93%和91%,但仿真时间要快得多。我们还提出了一种更现实的外部I/O功率建模技术。一般来说,我们的方法包括比早期模拟器更详细的微架构和电路建模,而不会产生显着的仿真时间开销-它可以小到几个百分点。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Microarchitectural power modeling techniques for deep sub-micron microprocessors
The need to perform early design studies that combine architectural simulation with power estimation has become critical as power has become a design constraint whose importance has moved to the fore. To satisfy this demand several microarchitectural power simulators have been developed around SimpleScalar, a widely used microarchitectural performance simulator They have proven to be very useful at providing insights into power/performance trade-offs. However, they are neither parameterized nor technology scalable. In this paper, we propose more accurate parameterized power modeling techniques reflecting the actual technology parameters as well as input switching-events for memory and execution units. Compared to HSPICE, the proposed techniques show 93% and 91% accuracies for those blocks, but with a much faster simulation time. We also propose a more realistic power modeling technique for external I/O. In general, our approach includes more detailed microarchitectural and circuit modeling than has been the case in earlier simulators, without incurring a significant simulation time overhead - it can be as small as a few percent.
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