Open AccessA power-aware SWDR cell for reducing cache write power
Author(s) -
Yen-Jen Chang,
Chia-Lin Yang,
Feipei Lai
Publication year - 2003
Publication title -
ntur (臺灣機構典藏)
Language(s) - English
Resource type - Conference proceedings
ISBN - 1-58113-682-X
DOI - 10.1145/871506.871513
Subject(s) - cache , computer science , cpu cache , static random access memory , power (physics) , embedded system , low power electronics , smart cache , cache algorithms , power consumption , computer hardware , parallel computing , physics , quantum mechanics
Low power caches have become a critical component of both hand-held devices and high-performance processors. Based on the observation that an overwhelming majority of the data written to the cache are '0', in this paper we propose a power-aware SRAM cell with one single-bitline write port and one differential-bitlines read port, called SWDR cell, to minimize the cache power consumption in writing '0'. The SWDR cell uses a circuit-level technique, which is software independent and orthogonal to other low power techniques at architecture-level. Compared to the conventional SRAM cell, the experimental results show that without compromise of both performance and stability, the SWDR cell can result in 73%∼92% reduction in average cache write power dissipated in bitlines.
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