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Deterministic Execution of Ptides ProgramsPatricia Derler, John Eidson, Stuart Goose, Edward A. Lee, Michael Zimmer
Citation
Patricia Derler, John Eidson, Stuart Goose, Edward A. Lee, Michael Zimmer. "Deterministic Execution of Ptides Programs". Technical report, University of California, Berkeley, Technical Report No. UCB/EECS-20, May, 2013.
Abstract
This paper discusses the use of the Ptides model of computation as a coordination language for the design of deterministic, event-driven, real-time, distributed embedded systems. Specifically, the paper shows how the use of synchronized clocks in the context of Ptides enables explicit, platform independent specification of functionality and timing. From this specification, we generate code for two target platforms: Renesas and XMOS. The generated code includes a lightweight operating system which performs scheduling, I/O and network handling as well as application specific tasks. Ptides models are developed in Ptolemy, a design and simulation environment for heterogeneous systems. This framework also contains a code generation framework which is leveraged to derive Ptides implementations from the models. We illustrate our approach by designing a simple Ptides application, a small component in a printing press responsible for on-the-fly changeover between paper rolls. We demonstrate the design process and show that the generated code exhibits identical timing at the cyber-physical boundary on multiple implementation platforms. Electronic downloads
- HTML
Patricia Derler, John Eidson, Stuart Goose, Edward A. Lee,
Michael Zimmer. <a
href="http://chess.eecs.berkeley.edu/pubs/1012.html"
><i>Deterministic Execution of Ptides
Programs</i></a>, Technical report, University
of California, Berkeley, Technical Report No. UCB/EECS-20,
May, 2013.
- Plain text
Patricia Derler, John Eidson, Stuart Goose, Edward A. Lee,
Michael Zimmer. "Deterministic Execution of Ptides
Programs". Technical report, University of California,
Berkeley, Technical Report No. UCB/EECS-20, May, 2013.
- BibTeX
@techreport{DerlerEidsonGooseLeeZimmer13_DeterministicExecutionOfPtidesPrograms,
author = {Patricia Derler and John Eidson and Stuart Goose
and Edward A. Lee and Michael Zimmer},
title = {Deterministic Execution of Ptides Programs},
institution = {University of California, Berkeley},
number = {Technical Report No. UCB/EECS-20},
month = {May},
year = {2013},
abstract = {This paper discusses the use of the Ptides model
of computation as a coordination language for the
design of deterministic, event-driven, real-time,
distributed embedded systems. Specifically, the
paper shows how the use of synchronized clocks in
the context of Ptides enables explicit, platform
independent specification of functionality and
timing. From this specification, we generate code
for two target platforms: Renesas and XMOS. The
generated code includes a lightweight operating
system which performs scheduling, I/O and network
handling as well as application specific tasks.
Ptides models are developed in Ptolemy, a design
and simulation environment for heterogeneous
systems. This framework also contains a code
generation framework which is leveraged to derive
Ptides implementations from the models. We
illustrate our approach by designing a simple
Ptides application, a small component in a
printing press responsible for on-the-fly
changeover between paper rolls. We demonstrate the
design process and show that the generated code
exhibits identical timing at the cyber-physical
boundary on multiple implementation platforms.},
URL = {http://chess.eecs.berkeley.edu/pubs/1012.html}
}
Posted by Mary Stewart on 19 Aug 2013.
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