Title :
On-Line and Off-Line DVS for Fixed Priority with Preemption Threshold Scheduling
Author :
Yang, Liu ; Lin Man
Author_Institution :
Dept. of Math, Stats & Comput. Sci., St. Francis Xavier Univ., Antigonish, NS
Abstract :
Along with the prevailing of mobile devices, the demand for efficient power consumption has become one of the major issues in designing embedded system. Dynamic voltage scaling (DVS) is a technique that can reduce energy consumption by changing the processor voltage levels dynamically. Fixed priority with preemption threshold (FPPT) scheduling is a scheduling policy that includes preemptive and non-preemptive aspect of scheduling policy. In this paper, an efficient universal fixed priority DVS algorithm (FPPT-DVS) will be presented. This algorithm has the advantage of both fixed priority preemptive (FPP) DVS scheduling and fixed priority non-preemptive (FPNP) DVS scheduling. FPPT-DVS algorithm also combines the on-line DVS and off-line DVS together. Experimental results show that the proposed FPPT-DVS algorithm can save up to 20% energy over the existing DVS algorithms.
Keywords :
embedded systems; power aware computing; scheduling; dynamic voltage scaling; embedded system design; energy consumption; mobile device; nonpreemptive scheduling; off-line DVS; online DVS; power consumption; preemption threshold scheduling; universal fixed priority algorithm; Computer science; Dynamic voltage scaling; Embedded software; Embedded system; Energy consumption; Logic; Mobile computing; Processor scheduling; Scheduling algorithm; Voltage control; DVS; Fixed Priority; Offline Energy Saving; On-line Energy Saving; Preemption Threshold;
Conference_Titel :
Embedded Software and Systems, 2009. ICESS '09. International Conference on
Conference_Location :
Zhejiang
Print_ISBN :
978-1-4244-4359-8
DOI :
10.1109/ICESS.2009.50
