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Automatic Model Generation for Black Box Real-Time SystemsThomas Huining Feng, Lynn Wang, wei zheng, Sri Kanajan, Sanjit Seshia
Citation
Thomas Huining Feng, Lynn Wang, wei zheng, Sri Kanajan, Sanjit Seshia. "Automatic Model Generation for Black Box Real-Time Systems". Design, Automation and Test in Europe (DATE) Conference, April, 2007.
Abstract
Embedded systems are often assembled from black box components.
System-level analyses, including verification and timing analysis,
typically assume the system description, such as RTL or source code,
as an input. There is therefore a need to automatically generate
formal models of black box components to facilitate analysis.
We propose a new method to generate models of real-time embedded
systems based on machine learning from execution traces, under a given
hypothesis about the system's model of computation. Our technique is
based on a novel formulation of the model generation problem as
learning a dependency graph that indicates partial ordering between
tasks. Tests based on an industry case study demonstrate that the
learning algorithm can scale up and that the deduced system model
accurately reflects dependencies between tasks in the original
design. These dependencies help us formally prove properties of the
system and also extract data dependencies that are not explicitly
stated in the specifications of black box components. Electronic downloads
- HTML
Thomas Huining Feng, Lynn Wang, wei zheng, Sri Kanajan,
Sanjit Seshia. <a
href="http://chess.eecs.berkeley.edu/pubs/244.html"
>Automatic Model Generation for Black Box Real-Time
Systems</a>, Design, Automation and Test in Europe
(DATE) Conference, April, 2007.
- Plain text
Thomas Huining Feng, Lynn Wang, wei zheng, Sri Kanajan,
Sanjit Seshia. "Automatic Model Generation for Black
Box Real-Time Systems". Design, Automation and Test in
Europe (DATE) Conference, April, 2007.
- BibTeX
@inproceedings{FengWangzhengKanajanSeshia07_AutomaticModelGenerationForBlackBoxRealTimeSystems,
author = {Thomas Huining Feng and Lynn Wang and wei zheng
and Sri Kanajan and Sanjit Seshia},
title = {Automatic Model Generation for Black Box Real-Time
Systems},
booktitle = {Design, Automation and Test in Europe (DATE)
Conference},
month = {April},
year = {2007},
abstract = { Embedded systems are often assembled from black
box components. System-level analyses, including
verification and timing analysis, typically assume
the system description, such as RTL or source
code, as an input. There is therefore a need to
automatically generate formal models of black box
components to facilitate analysis. We propose a
new method to generate models of real-time
embedded systems based on machine learning from
execution traces, under a given hypothesis about
the system's model of computation. Our technique
is based on a novel formulation of the model
generation problem as learning a dependency graph
that indicates partial ordering between tasks.
Tests based on an industry case study demonstrate
that the learning algorithm can scale up and that
the deduced system model accurately reflects
dependencies between tasks in the original design.
These dependencies help us formally prove
properties of the system and also extract data
dependencies that are not explicitly stated in the
specifications of black box components.},
URL = {http://chess.eecs.berkeley.edu/pubs/244.html}
}
Posted by Thomas Huining Feng on 14 May 2007.
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