Title :
Supervised Learning Based Power Management for Multicore Processors
Author :
Jung, Hwisung ; Pedram, Massoud
Author_Institution :
Broadcom Corp., Irvine, CA, USA
Abstract :
This paper presents a supervised learning based power management framework for a multi-processor system, where a power manager (PM) learns to predict the system performance state from some readily available input features (such as the occupancy state of a global service queue) and then uses this predicted state to look up the optimal power management action (e.g., voltage-frequency setting) from a precomputed policy table. The motivation for utilizing supervised learning in the form of a Bayesian classifier is to reduce the overhead of the PM which has to repetitively determine and assign voltage-frequency settings for each processor core in the system. Experimental results demonstrate that the proposed supervised learning based power management technique ensures system-wide energy savings under rapidly and widely varying workloads.
Keywords :
Bayes methods; learning (artificial intelligence); multiprocessing systems; power aware computing; Bayesian classifier; PM; multicore processors; optimal power management; power manager; supervised learning; voltage frequency setting; Bayesian methods; Feature extraction; Multicore processing; Power dissipation; Program processors; Supervised learning; Training; Bayesian classification; dynamic power management; machine learning; multi-processor system; supervised learning;
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
DOI :
10.1109/TCAD.2010.2059270
