Performance-targeted Resource-aware Task Scheduling for Heterogeneous Platforms
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Typ
Examensarbete för masterexamen
Master Thesis
Master Thesis
Program
Embedded electronic system design (MPEES), MSc
Publicerad
2018
Författare
Fahlgren, Henrik
Rohlin, Agnes
Modellbyggare
Tidskriftstitel
ISSN
Volymtitel
Utgivare
Sammanfattning
Embedded environments often come with strict energy requirements, especially in mobile devices. Heterogeneous architectures are often used in these systems as they provide resources useful in different scenarios. However, introducing more resources requires proper scheduling to be able to utilize the resources efficiently. XiTAO is a resource-aware runtime which dynamically allocates appropriate resources to provide interference-free execution. This thesis aims to extend the XiTAO runtime to consider heterogeneous scheduling as it currently only considers scheduling for a homogeneous platform. For this thesis, only architectures with heterogeneous cores using the same instruction set architecture are considered. Specifically, a Huawei processor with ARM big-LITTLE architecture nodes mounted on a Hikey960 board is used. After surveying related work, four scheduling extensions are presented and evaluated in the thesis. Two extensions target the critical path of the application of which one schedules tasks on the critical path on predefined big cores while the other uses a history-based method of finding the most suitable cores. The third extension uses a history-based method to recognize which tasks will get the greatest performance increase from running on a big core compared to a LITTLE core. The fourth extension changes the amount of resources given to each task dynamically by observing the load and history of the system together with a moldability feature of XiTAO. The last extension can be applied simultaneously as the other scheduling extensions or individually. The scheduling extensions were evaluated with synthetic benchmarks with three different kernels, highlighting specific scenarios. The results show a speedup up to 29% for a randomized directed acyclic graph with our extensions compared the original runtime scheduling.
Beskrivning
Ämne/nyckelord
Informations- och kommunikationsteknik , Data- och informationsvetenskap , Information & Communication Technology , Computer and Information Science