Title :
A Novel Voltage Scaling Algorithm through Ant Colony Optimization for Embedded Distributed Systems
Author :
Ding, Dan ; Zhang, Lisheng ; Wei, Zheng
Author_Institution :
Chinese Acad. of Sci., Beijing
Abstract :
Dynamic voltage scaling, supported by many DVS-enabled processors, is an efficient technique for energy-efficient embedded systems. Many researchers work on DVS and have presented various DVS algorithms, some with quite good results. However, the previous algorithms either have a large time complexity or obtain results sensitive to the count of the voltage modes. Fine-grained voltage modes lead to optimal results, but coarse-grained voltage modes cause less optimal one. This paper presents a new algorithm based on ant colony optimization, called ant colony optimization voltage and task scheduling (ACO-VTS) with a low time complexity implemented by parallelizing and its linear time approximation algorithm. Both of them generate quite good results, saving up to 30% more energy than one of the previous ones under coarse-grained modes, but their results don´t depend on the number of modes available.
Keywords :
computational complexity; distributed processing; embedded systems; optimisation; power aware computing; task analysis; ant colony optimization; dynamic voltage scaling; embedded distributed systems; linear time approximation algorithm; task scheduling; time complexity; voltage scheduling; Ant colony optimization; Approximation algorithms; Dynamic voltage scaling; Embedded system; Energy consumption; Energy efficiency; Linear approximation; Scheduling algorithm; Very large scale integration; Voltage control; Algorithms; Ant Colony Optimization; Design; Distributed System; Dynamic Voltage Algorithm; Multi-processor; Performance;
Conference_Titel :
Integration Technology, 2007. ICIT '07. IEEE International Conference on
Conference_Location :
Shenzhen
Print_ISBN :
1-4244-1092-4
Electronic_ISBN :
1-4244-1092-4
DOI :
10.1109/ICITECHNOLOGY.2007.4290377
