Reducing Cache Energy Dissipation by Using Dual Voltage Supply(Special Section on VLSI Design and CAD Algorithms)
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概要
- 論文の詳細を見る
Due to a large capacitance and enormous access rate, caches dissipate about a third of the total energy consumed by today's processors. In this paper we present a new architectural technique to reduce energy consumption in caches. Unlike previous approaches, which have focused on lowering cache capacitance and the number of accesses, our method exploits a new freedom in cache design, namely the voltage per access. Since in modern block-buffered caches, the loading capacitance operated on block-hit is much less than the capacitance operated on miss, the given clock cycle time is inefficiently utilized during the hit. We propose to trade-off this unused time with the supply voltage, lowering the voltage level on the hit and increasing it on the miss. Experiments show that the approach can half the cache energy dissipation without large performance and area overhead.
- 一般社団法人電子情報通信学会の論文
- 2001-11-01
著者
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モシニャガ ワシリー
Department Of Informatics Kyushu University
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Tsuji Hiroshi
The Department Of Electrical And Electronic Engineering Kobe University
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Moshnyaga Vasily
京都大学工学研究科電子通信工学教室
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Tsuji Hiroshi
The Department Of Electronics Engineering And Computer Science Fukuoka University
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MOSHNYAGA Vasily
the Department of Electronics Engineering and Computer Science, Fukuoka University
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