基于寄存器绑定的高级控制流密集行为综合电源管理

Proceedings. IEEE International Conference on Computer Design: VLSI in Computers and Processors Pub Date : 2002-09-16 DOI:10.1109/ICCD.2002.1106800

Lin Zhong, Jiong Luo, Yunsi Fei, N. Jha

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引用次数: 8

摘要

不包含任何虚假开关活动的电路或电路元件，即其指定功能不需要的活动，称为完全电源管理(PPM)。我们提出了寄存器绑定的一般充分条件，以确保给定的一组功能单元是PPM。这个条件不仅适用于数据流密集型(DFI)行为，也适用于控制流密集型(CFI)行为。它导致了一个简单的电源管理(PM)寄存器绑定算法。该算法独立于功能单元绑定和调度算法。因此，它可以很容易地合并到现有的高级综合系统中。对于我们实验的基准测试，与不使用PM寄存器绑定的功耗优化寄存器传输电平(RTL)电路相比，我们的方法平均降低了45.9%的功耗，平均面积开销为7.7%。

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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A circuit or circuit component that does not contain any spurious switching activity, i.e., activity that is not required by its specified functionality, is called perfectly power managed (PPM). We present a general sufficient condition for register binding to ensure that a given set of functional units is PPM. This condition not only applies to data-flow intensive (DFI) behaviors but also to control-flow intensive (CFI) behaviors. It leads to a straightforward power-managed (PM) register binding algorithm. The proposed algorithm is independent of the functional unit binding and scheduling algorithms. Hence, it can be easily incorporated into existing high-level synthesis systems. For the benchmarks we experimented with, an average 45.9% power reduction was achieved by our method at the cost of 7.7% average area overhead, compared to power-optimized register-transfer level (RTL) circuits which did not use PM register binding.

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