Your search keyword '"MOBILE GRID"' showing total 2 results

1. Energy-efficient job stealing for CPU-intensive processing in mobile devices.

Author

Rodriguez, Juan, Mateos, Cristian, and Zunino, Alejandro

Subjects

*CENTRAL processing units, *PRODUCTION scheduling, *CELL phones, *GRID computing, *QUEUING theory, *ENERGY consumption

Abstract

Mobile devices have evolved from simple electronic agendas and mobile phones to small computers with great computational capabilities. In addition, there are more than 2 billion mobile devices around the world. Taking these facts into account, mobile devices are a potential source of computational resources for clusters and computational Grids. In this work, we present an analysis of different schedulers based on job stealing for mobile computational Grids. These job stealing techniques have been designed to consider energy consumption and battery status. As a result of this work, we present empirical evidence showing that energy-aware job stealing is more efficient than traditional random stealing in this context. In particular, our results show that mobile Grids using energy-aware job stealing might finish up to 11 % more jobs than when using random stealing, and up to 24 % more jobs than when not using any job stealing technique. This means that using energy-aware job stealing increases the energy efficiency of mobile computational Grids because it increases the number of jobs that can be executed using the same amount of energy. [ABSTRACT FROM AUTHOR]

Published

2014

2. Energy-efficient job stealing for CPU-intensive processing in mobile devices

Author

Juan Manuel Rodriguez, Cristian Mateos, and Alejandro Zunino

Subjects

Job scheduler, Job stealing, Computer science, Distributed computing, computer.software_genre, Theoretical Computer Science, Scheduling (computing), Potential source, Empirical evidence, Mobile Grid, Numerical Analysis, Queueing theory, Job scheduling, Energy consumption, CPU intensive application, Ciencias de la Computación, Computer Science Applications, Computational Mathematics, Computational Theory and Mathematics, Ciencias de la Computación e Información, Mobile devices, computer, Mobile device, CIENCIAS NATURALES Y EXACTAS, Software, Efficient energy use

Abstract

Mobile devices have evolved from simple electronic agendas and mobile phones to small computers with great computational capabilities. In addition, there are more than 2 billion mobile devices around the world. Taking these facts into account, mobile devices are a potential source of computational resources for clusters and computational Grids. In this work, we present an analysis of different schedulers based on job stealing for mobile computational Grids. These job stealing techniques have been designed to consider energy consumption and battery status. As a result of this work, we present empirical evidence showing that energy-aware job stealing is more efficient than traditional random stealing in this context. In particular, our results show that mobile Grids using energy-aware job stealing might finish up to 11% more jobs than when using random stealing, and up to 24% more jobs than when not using any job stealing technique. This means that using energy-aware job stealing increases the energy efficiency of mobile computational Grids because it increases the number of jobs that can be executed using the same amount of energy. Fil: Rodriguez, Juan Manuel. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Tandil. Instituto Superior de Ingenieria del Software; Argentina Fil: Mateos Diaz, Cristian Maximiliano. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Tandil. Instituto Superior de Ingenieria del Software; Argentina Fil: Zunino Suarez, Alejandro Octavio. Consejo Nacional de Investigaciones Científicas y Técnicas. Centro Científico Tecnológico Tandil. Instituto Superior de Ingenieria del Software; Argentina

Published

2012