Title :
Enhanced Race-To-Halt: A Leakage-Aware Energy Management Approach for Dynamic Priority Systems
Author :
Awan, Muhammad Ali ; Petters, Stefan M.
Author_Institution :
ISEP-IPP Porto, Porto, Portugal
Abstract :
With progressing CMOS technology miniaturization, the leakage power consumption starts to dominate the dynamic power consumption. The recent technology trends have equipped the modern embedded processors with the several sleep states and reduced their overhead (energy/time) of the sleep transition. The dynamic voltage frequency scaling (DVFS) potential to save energy is diminishing due to efficient (low overhead) sleep states and increased static (leakage) power consumption. The state-of-the-art research on static power reduction at system level is based on assumptions that cannot easily be integrated into practical systems. We propose a novel enhanced race-to-halt approach (ERTH) to reduce the overall system energy consumption. The exhaustive simulations demonstrate the effectiveness of our approach showing an improvement of up to 8 % over an existing work.
Keywords :
CMOS integrated circuits; embedded systems; energy management systems; power aware computing; power consumption; CMOS technology miniaturization; dynamic power consumption; dynamic priority systems; dynamic voltage frequency scaling; enhanced race to halt; leakage aware energy management; leakage power consumption; modern embedded processors; static power reduction; Energy consumption; Equations; Hardware; Mathematical model; Power demand; Real time systems; Schedules; Leakage aware scheduling; power management; race-to-halt approach; real-time scheduling; shutdown; sleep state; static power;
Conference_Titel :
Real-Time Systems (ECRTS), 2011 23rd Euromicro Conference on
Conference_Location :
Porto
Print_ISBN :
978-1-4577-0643-1
DOI :
10.1109/ECRTS.2011.17
