A Tool Integration Approach for Architectural Exploration of Aircraft Electric Power Systems

A Tool Integration Approach for Architectural Exploration of Aircraft Electric Power Systems
Hokeun Kim, Liangpeng Guo, Edward A. Lee, Alberto Sangiovanni-Vincentelli

Citation
Hokeun Kim, Liangpeng Guo, Edward A. Lee, Alberto Sangiovanni-Vincentelli. "A Tool Integration Approach for Architectural Exploration of Aircraft Electric Power Systems". Cyber-Physical Systems, Networks, and Applications (CPSNA), 2013 IEEE 1st International Conference on, IEEE, 38-43, 19, August, 2013.

Abstract
For emerging safety-critical systems, it is beneficial to cope with design validation, performance estimation, and design space exploration in early design stages. In this paper, we explore the architectural choices of an aircraft electric power system (EPS) controller using Ptolemy II and Metro II. The design is modeled in separate aspects: the functional aspect models the logics and behaviors that fulfill the functionality of the controller, and the architectural aspect models the behaviors of the platform that implements the controller. The co-design benefits from the rigorous Model of Computation (MoC) in Ptolemy II, which facilitates the analysis and validation of functional aspect, as well as the flexibility and expressiveness provided by Metro II, in which complex architectural models can be built with the flexibility of changing the mapping. Co-simulation integrates the functional model and the architectural model using Metro II semantics. By clearly separating the functional aspect and the architectural aspect, the performance can be estimated at an early design stage, and the architectural exploration can be done in a more efficient manner.We show the effectiveness and extensibility of our approach using experiments and results with example candidates for the aircraft EPS controller.

Electronic downloads

http://ieeexplore.ieee.org/xpls/abs_all.jsp?arnumber=6614244

Citation formats

HTML

Hokeun Kim, Liangpeng Guo, Edward A. Lee, Alberto
Sangiovanni-Vincentelli. <a
href="http://chess.eecs.berkeley.edu/pubs/1054.html"
>A Tool Integration Approach for Architectural
Exploration of Aircraft Electric Power Systems</a>, 
Cyber-Physical Systems, Networks, and Applications (CPSNA),
2013 IEEE 1st International Conference on, IEEE, 38-43, 19,
August, 2013.

Plain text

Hokeun Kim, Liangpeng Guo, Edward A. Lee, Alberto
Sangiovanni-Vincentelli. "A Tool Integration Approach
for Architectural Exploration of Aircraft Electric Power
Systems".  Cyber-Physical Systems, Networks, and
Applications (CPSNA), 2013 IEEE 1st International Conference
on, IEEE, 38-43, 19, August, 2013.

BibTeX

@inproceedings{KimGuoLeeSangiovanniVincentelli13_ToolIntegrationApproachForArchitecturalExplorationOf,
    author = {Hokeun Kim and Liangpeng Guo and Edward A. Lee and
              Alberto Sangiovanni-Vincentelli},
    title = {A Tool Integration Approach for Architectural
              Exploration of Aircraft Electric Power Systems},
    booktitle = { Cyber-Physical Systems, Networks, and
              Applications (CPSNA), 2013 IEEE 1st International
              Conference on},
    organization = {IEEE},
    pages = {38-43},
    day = {19},
    month = {August},
    year = {2013},
    abstract = {For emerging safety-critical systems, it is
              beneficial to cope with design validation,
              performance estimation, and design space
              exploration in early design stages. In this paper,
              we explore the architectural choices of an
              aircraft electric power system (EPS) controller
              using Ptolemy II and Metro II. The design is
              modeled in separate aspects: the functional aspect
              models the logics and behaviors that fulfill the
              functionality of the controller, and the
              architectural aspect models the behaviors of the
              platform that implements the controller. The
              co-design benefits from the rigorous Model of
              Computation (MoC) in Ptolemy II, which facilitates
              the analysis and validation of functional aspect,
              as well as the flexibility and expressiveness
              provided by Metro II, in which complex
              architectural models can be built with the
              flexibility of changing the mapping. Co-simulation
              integrates the functional model and the
              architectural model using Metro II semantics. By
              clearly separating the functional aspect and the
              architectural aspect, the performance can be
              estimated at an early design stage, and the
              architectural exploration can be done in a more
              efficient manner.We show the effectiveness and
              extensibility of our approach using experiments
              and results with example candidates for the
              aircraft EPS controller.},
    URL = {http://chess.eecs.berkeley.edu/pubs/1054.html}
}

Posted by Hokeun Kim on 27 Jan 2014.
Groups: ptolemy
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