The Implementation and Design of a Low-Power Clock Distribution Microarchitecture

机译：低功耗时钟分配微体系结构的实现与设计

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The high clock frequency of current high-performance microprocessors brings the significant challenge for the microprocessors'' power. The multiple clock domain (MCD) technique is a new clock distribution technique, which retains the benefits of synchronous designs and avoids the problems due to global clock to reduce the power of the clock distribution. Most present studies of MCD are only based on superscalar architectures. In this paper, a low-power clock distribution micro-architecture, named MCDE, the MCD microarchitecture based on explicitly parallel instruction computing (EPIC) is designed and implemented. Furthermore, a series of experiments on our design have been done to evaluate it. The experimental results show that, using a MCDE microarchitecture with a fine-grained dynamic frequency scaling algorithm, can effectively decrease the microprocessor power by 40%, compared with the conventional EPIC processor with only one clock domain.

机译：当前高性能微处理器的高时钟频率给微处理器的功率带来了重大挑战。多时钟域（MCD）技术是一种新的时钟分配技术，它保留了同步设计的优点，并且避免了由于全局时钟而导致的问题，从而降低了时钟分配的功率。当前对MCD的大多数研究仅基于超标量体系结构。本文设计并实现了一种低功耗时钟分配微体系结构，即MCDE，即基于显式并行指令计算（EPIC）的MCD微体系结构。此外，已经对我们的设计进行了一系列实验以对其进行评估。实验结果表明，与只有一个时钟域的常规EPIC处理器相比，使用具有细粒度动态频率缩放算法的MCDE微体系结构可以有效地将微处理器功耗降低40％。

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来源
《Networking Architecture and Storage, 2007 International Conference on; Guilin,China》|1976年|P.21-30|共10页
会议地点 Ames IA(US)
作者
Rong Ji; Xianjun Zeng; Liang Chen; Junfeng Zhang;
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原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
clocks; logic design; low-power electronics; microprocessor chips; MCDE; clock distribution technique; explicitly parallel instruction computing; fine-grained dynamic frequency scaling algorithm; high-performance microprocessors; low-power clock distribution micr;

机译：时钟;逻辑设计;低功耗电子产品;微处理器芯片; MCDE;时钟分配技术;显式并行指令计算;细粒度动态频率缩放算法;高性能微处理器;低功耗时钟分配麦克风;
入库时间 2022-08-26 14:11:25

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3. Delay Fault Coverage Enhancement by Partial Clocking for Low-Power Designs With Heavily Gated Clocks [J] . Sanghyeon Baeg IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems . 2007,第12期

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4. The Implementation and Design of a Low-Power Clock Distribution Microarchitecture [C] . Rong Ji, Xianjun Zeng, Liang Chen, International Conference on Networking, Architecture, and Storage . 2008

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6. Design and Implementation of an On-Chip Low-Power and High-Flexibility System for Data Acquisition and Processing of an Inertial Measurement Unit [O] . Zhenyi Gao, Bin Zhou, Yang Li, 2020

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The Implementation and Design of a Low-Power Clock Distribution Microarchitecture

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