Artículos de revistas
Battery-aware centralized schedulers for CPU-bound jobs in mobile Grids
Fecha
2016-07Registro en:
Hirsch Jofré, Matías Eberardo; Rodriguez, Juan Manuel; Zunino Suarez, Alejandro Octavio; Mateos Diaz, Cristian Maximiliano; Battery-aware centralized schedulers for CPU-bound jobs in mobile Grids; Elsevier; Pervasive and Mobile Computing; 29; 7-2016; 73-94
1574-1192
CONICET Digital
CONICET
Autor
Hirsch Jofré, Matías Eberardo
Rodriguez, Juan Manuel
Zunino Suarez, Alejandro Octavio
Mateos Diaz, Cristian Maximiliano
Resumen
Given the relentless growing number of mobile devices, researchers have pointed out that distributed computing environments, such as clusters or even computational Grids, could increase the available resources by scavenging devices’ capabilities. However, this negatively impacts on their batteries. We study centralized job schedulers that aim at exploiting clusters of mobile resources with rather stable devices in terms of connection time. These schedulers outperform a previous centralized scheduler, finishing up to 30% more jobs with the same amount of energy. We also show that the schedulers perform competitively compared to schedulers based on job stealing, which are more difficult to implement and consume more network resources and hence energy.