direkt zum Inhalt springen

direkt zum Hauptnavigationsmenü

Sie sind hier

TU Berlin

Page Content

Publications of KBS

Load-aware Scheduling for Heterogeneous Multi-core Systems
Citation key Nabelsee:2016:LoadAwareSchedHetero
Author Mohannad Nabelsee and Busse, Anselm and Parzyjegla, Helge and Mühl, Gero
Title of Book Proceedings of the 31st Annual ACM Symposium on Applied Computing
Pages 1844–1851
Year 2016
ISBN 978-1-4503-3739-7
DOI 10.1145/2851613.2851738
Location Pisa, Italy
Address New York, NY, USA
Month April
Editor ACM
Series SAC '16
Abstract Heterogeneous multi-core systems are becoming more and more common today. To be used to their full potential, the operating system has to be adapted to the new system environment. This is especially true for the scheduler as it is crucial to the overall system performance. In this paper, we present a scheduling approach for heterogeneous systems with two different kinds of cores. One that is very power efficient, but shows only a limited computing power, and the other one that has a very high performance and is very power consuming at the same time. We consider such heterogeneity for a centralized scheduler architecture. In our approach, we introduce a new load metric in order to classify tasks whether or not they are suited to be executed on a high-performance core. Based on this metric, we present a task state model for scheduling tasks according to their performance classification. We implemented the scheduling approach by extending the Brain Fuck Scheduler (BFS) and evaluated it on an eight core heterogeneous architecture with four low performance and four high-performance cores. The evaluation covers system responsiveness and high load behaviour compared to the vanilla BFS and the decentralized Completely Fair Scheduler (CFS). Even though our approach takes the heterogeneity into account, the results show that it scales better than the vanilla BFS while nearly maintaining its superior responsiveness.
Link to original publication Download Bibtex entry

Zusatzinformationen / Extras

Quick Access:

Schnellnavigation zur Seite über Nummerneingabe

Auxiliary Functions