Cache Power Optimization Based on Compare-Based Adaptive Clock Gating and Its 65nm SoC Implementation

Cache Power Optimization Based on Compare-Based Adaptive Clock Gating and Its 65nm SoC Implementation

In most embedded microprocessor based System on chips(So Cs), cache has become a ma jor source of power consumption due to its increasing size and high access rate. Power optimization of cache based on Compare-based adaptive clock gating(CACG) is proposed to reduce the power waste due to cache idle....

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Veröffentlicht in:Chinese Journal of Electronics 2017-01, Vol.26 (1), p.128-131
Hauptverfasser: Li, Jie, Wan, Xing, Wu, Jianbing, Shan, Weiwei
Format: Artikel
Sprache:eng
Schlagworte:
CACG
Cache idle
cache power optimization
cache storage
cache working state detection
circuit optimisation
clocks
CMOS digital integrated circuits
compare‐based adaptive clock gating
Dhrystone test benchmark
embedded microprocessor based system on chips
Embedded processor
embedded systems
Low power
microprocessor chips
power consumption
power reduction
Self‐adaptive clock gating
size 65 nm
SOC
system‐on‐chip
TSMC CMOS process
功耗优化
嵌入式微处理器
工作状态
时钟门控
片上系统
缓存
自适应
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Zusammenfassung:In most embedded microprocessor based System on chips(So Cs), cache has become a ma jor source of power consumption due to its increasing size and high access rate. Power optimization of cache based on Compare-based adaptive clock gating(CACG) is proposed to reduce the power waste due to cache idle. By detecting the cache's working state, the CACG can automatically turn off its clock when it is in idle state, saving a large percentage of dynamic power. Measurements of a real So C chip fabricated under TSMC 65 nm CMOS process show that an average of 30.3% power reduction is gained in Dhrystone test benchmark at a cost of negligible area overhead and no virtually performance loss.
ISSN:1022-4653
2075-5597
DOI:10.1049/cje.2016.06.029