Support for the logical execution time model on a time-predictable multicore processor | Zendy

Florian Kluge | Zendy; Martin Schoeberl | Zendy; Theo Ungerer | Zendy

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Support for the logical execution time model on a time-predictable multicore processor

Author(s) -

Florian Kluge,

Martin Schoeberl,

Theo Ungerer

Publication year - 2016

Publication title -

acm sigbed review

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.27

H-Index - 5

ISSN - 1551-3688

DOI - 10.1145/3015037.3015047

Subject(s) - computer science , multi core processor , bottleneck , execution time , principle of compositionality , task (project management) , parallel computing , shared memory , distributed computing , embedded system , management , artificial intelligence , economics

The logical execution time (LET) model increases the compositionality of real-time task sets. Removal or addition of tasks does not influence the communication behavior of other tasks. In this work, we extend a multicore operating system running on a time-predictable multicore processor to support the LET model. For communication between tasks we use message passing on a time-predictable network-on-chip to avoid the bottleneck of shared memory. We report our experiences and present results on the costs in terms of memory and execution time.

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