Title :
Power gating with block migration in chip-multiprocessor last-level caches
Author :
Kadjo, David ; Hyungjun Kim ; Gratz, Paul ; Jiang Hu ; Ayoub, Raid
Author_Institution :
Dept. of Electr. & Comput. Eng., Texas A & M Univ., College Station, TX, USA
Abstract :
We propose a novel technique to significantly reduce the leakage energy of last level caches while mitigating any significant performance impact. In general, cache blocks are not ordered by their temporal locality within the sets; hence, simply power gating off a partition of the cache, as done in previous studies, may lead to considerable performance degradation. We propose a solution that migrates the high temporal locality blocks to facilitate power gating, where blocks likely to be used in the future are migrated from the partition being shutdown to the live partition at a negligible performance impact and hardware overhead. Our detailed simulations show energy savings of 66% at low performance degradation of 2.16%.
Keywords :
cache storage; multiprocessing systems; power aware computing; block migration; cache blocks; cache partition; chip-multiprocessor last-level caches; energy savings; hardware overhead; high temporal locality blocks; leakage energy reduction; performance degradation; power gating; significant performance impact mitigation; Benchmark testing; Degradation; Hardware; Logic gates; Radiation detectors; Runtime; Transistors; Leakage power; cache footprint; caches; dead blocks;
Conference_Titel :
Computer Design (ICCD), 2013 IEEE 31st International Conference on
Conference_Location :
Asheville, NC
DOI :
10.1109/ICCD.2013.6657030
