Trading End-to-End Latency for Composability

Trading End-to-End Latency for Composability
Slobodan Matic, Tom Henzinger

Citation
Slobodan Matic, Tom Henzinger. "Trading End-to-End Latency for Composability". Proceedings of RTSS 2005, 99-110, December, 2005.

Abstract
The periodic resource model for hierarchical, compositional scheduling abstracts task groups by resource requirements. We study this model in the presence of dataflow constraints between the tasks within a group (intragroup dependencies), and between tasks in different groups (intergroup dependencies). We consider two natural semantics for dataflow constraints, namely, RTW (Real-Time Workshop) semantics and LET (logical execution time) semantics. We show that while RTW semantics offers better end-to-end latency on the task group level, LET semantics allows tighter resource bounds in the abstraction hierarchy and therefore provides better composability properties. This result holds both for intragroup and intergroup dependencies, as well as for shared and for distributed resources.

Electronic downloads

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Citation formats

HTML

Slobodan Matic, Tom Henzinger. <a
href="http://chess.eecs.berkeley.edu/pubs/91.html"
>Trading End-to-End Latency for Composability</a>,
Proceedings of RTSS 2005, 99-110, December, 2005.

Plain text

Slobodan Matic, Tom Henzinger. "Trading End-to-End
Latency for Composability". Proceedings of RTSS 2005,
99-110, December, 2005.

BibTeX

@inproceedings{MaticHenzinger05_TradingEndtoEndLatencyForComposability,
    author = {Slobodan Matic and Tom Henzinger},
    title = {Trading End-to-End Latency for Composability},
    booktitle = {Proceedings of RTSS 2005},
    pages = {99-110},
    month = {December},
    year = {2005},
    abstract = {The periodic resource model for hierarchical,
              compositional scheduling abstracts task groups by
              resource requirements. We study this model in the
              presence of dataflow constraints between the tasks
              within a group (intragroup dependencies), and
              between tasks in different groups (intergroup
              dependencies). We consider two natural semantics
              for dataflow constraints, namely, RTW (Real-Time
              Workshop) semantics and LET (logical execution
              time) semantics. We show that while RTW semantics
              offers better end-to-end latency on the task group
              level, LET semantics allows tighter resource
              bounds in the abstraction hierarchy and therefore
              provides better composability properties. This
              result holds both for intragroup and intergroup
              dependencies, as well as for shared and for
              distributed resources.},
    URL = {http://chess.eecs.berkeley.edu/pubs/91.html}
}

Posted by Slobodan Matic on 11 May 2006.
Groups: chess chesslocal
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