多核处理器体系结构级与门级相结合的功率模型

2013 12th IEEE International Conference on Trust, Security and Privacy in Computing and Communications Pub Date : 2013-07-16 DOI:10.1109/TrustCom.2013.204

Manman Peng, Yang Hu

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引用次数: 1

摘要

低功耗正成为多核处理器的关键因素。随着多核处理器设计复杂性的增加，多核处理器的功耗估计变得越来越重要。提出了一种新的多核处理器体系结构级和栅极级相结合的功率模型。该模型将多核处理器映射到构建块的组合，并使用参数化RTL估计这些块的门级功率。然后，以查询表的形式生成功率数，并集成到体系结构模拟器中。实验表明，对于峰值功率的估计，与栅极级相比，达到了很好的精度，仿真性能大大提高。

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A Power Model Combined of Architectural Level and Gate Level for Multicore Processors

Low power consumption is becoming a critical factor for multicore processors. As the multicore processor design complexity increases, power estimation for multicore processors has gained more importance. This paper presents a new power model combined of architectural level and gate level for multicore processors. The model maps the multicore processors to a combination of building blocks, and estimates the gate-level power of these blocks using parameterized RTL. Then, the power numbers are made in the form of look-up tables, and integrated in architecture simulators. The experiments show that for peak power estimation, an excellent accuracy has been reached and simulation performance is greatly improved compared to the gate level.

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2013 12th IEEE International Conference on Trust, Security and Privacy in Computing and Communications

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