Efficient Energy Saving Scheme for On-Chip Caches
University of North Texas; Iowa State University
per
Gomathisankaran, Mahadevan
Iowa State University
per
Somani, Arun
2002
eng
This paper discusses efficient energy saving techniques for on-chip caches, focusing especially on drowsy cache schemes.
10 p.
on-chip cache
leakage
energy
UNTSW
UNTCOE
public
text_paper
text
Computer Science and Engineering
Abstract: With the reduction in feature size the static power component, such as the leakage power, dominates the dynamic power consumption in the on-chip caches. It has been observed that all cache lines need not be kept alive at all times. Only a very few lines during a given window of time need to be actively powered from the footprint, i.e., they are accessed during that time. Earlier research has addressed the issue of how to determine the set of active lines and how long to keep them active (powered). Circuit techniques have also been developed to keep a cache line in low leakage state i.e., Drowsy State when the line is not being accessed or used. Such a cache is called drowsy cache. These circuit techniques try to achieve maximum reduction in the leakage power without losing the information content and with minimal performance penalty associated with power transitions. These techniques when used with optimal switching scheme, which decides when and what lines to drowse, results in maximum reduction in energy consumed. In this paper, the authors study the cache access pattern to evaluate them and arrive at an optimal scheme to implement the drowsy cache. The authors achieve energy reduction on the average of 88% of maximum gain achievable through the underlying circuit technique. The authors also compare the performance of their scheme with the earlier proposed schemes and show that the authors can achieve up to 6% of higher saving in cache energy for the benchmarks studied (with an average on 4% for all benchmarks with equal weights) without any additional performance penalty.
lwaugh
DC
ark:/67531/metadc94293
2012-07-31, 11:22:20
twarner
2013-07-18, 13:14:37
False