TY  - GEN
AU  - Saez,Juan Carlos
AU  - Pousa,Adrián
AU  - Castro,Fernando
AU  - Chaver,Daniel
AU  - Prieto-Matias,Manuel
TI  - Towards completely fair scheduling on asymmetric single-ISA multicore processors
KW  - PROCESADORES MULTICORE ASIMÉTRICOS
KW  - HARDWARE
KW  - PROGRAMACIÓN
N1  - Formato de archivo PDF. -- Este documento es producción intelectual de la Facultad de Informática - UNLP (Colección BIPA/Biblioteca); Journal of Parallel and Distributed Computing, 102(C), pp. 115-131
N2  - Single-ISA asymmetric multicore processors (AMPs), which combine high-performance big cores with low-power small cores, were shown to deliver higher performance per watt than symmetric CMPs (Chip Multi-Processors). Previous work has highlighted that this potential of AMP systems can be realizable via OS scheduling. To date, most existing scheduling schemes for AMPs have been designed to optimize the system throughput, but they are inherently unfair. Although fairness-aware schedulers have been also proposed, they fail to effectively deal with user priorities and do not always ensure that equalpriority applications experience a similar slowdown. To overcome these limitations, we propose ACFS, an asymmetry-aware completely fair scheduler that seeks to optimize fairness while ensuring acceptable throughput. Our evaluation on real AMP hardware and using scheduler implementations in the Linux kernel demonstrates that ACFS achieves an average 23% fairness improvement over two state-of-the-art schemes, while providing higher system throughput
UR  - http://dx.doi.org/10.1016/j.jpdc.2016.12.011
ER  -