TEEM: Online Thermal- and Energy-Efficiency Management on CPU-GPU MPSoCs
Samuel Isuwa1,2,d,e, Somdip Dey1,a, Amit Kumar Singh1,b and Klaus McDonald-Maier1,c
1School of Computer Science and Electronics Engineering, University of Essex, UK
asomdip.dey@essex.ac.uk
ba.k.singh@essex.ac.uk
ckdm@essex.ac.uk
2Computer Engineering Department, University of Maiduguri, Borno State, Nigeria
dsi17378@essex.ac.uk
esamuelisuwa@unimaid.edu.ng
ABSTRACT
Heterogeneous Multiprocessor System-on-Chip (MPSoC) are progressively becoming predominant in most modern mobile devices. These devices are required to perform processing of applications within thermal, energy and performance constraints. However, most stock power and thermal management mechanisms either neglect some of these constraints or rely on frequency scaling to achieve energy-efficiency and temperature reduction on the device. Although this inefficient technique can reduce temporal thermal gradient, but at the same time hurts the performance of the executing task. In this paper, we propose a thermal and energy management mechanism which achieves reduction in thermal gradient as well as energy-efficiency through resource mapping and thread-partitioning of applications with online optimization in heterogeneous MPSoCs. The efficacy of the proposed approach is experimentally appraised using different applications from Polybench benchmark suite on Odroid-XU4 developmental platform. Results show 28% performance improvement, 28.32% energy saving and reduced thermal variance of over 76% when compared to the existing approaches. Additionally, the method is able to free more than 90% in memory storage on the MPSoC, which would have been previously utilized to store several task-to-thread mapping configurations.
