An Interface Algebra for Real-time ComponentsTom Henzinger, Slobodan Matic
Citation
Tom Henzinger, Slobodan Matic. "An Interface Algebra for Real-time Components". Proceedings of RTAS 2006, 253-263, April, 2006.
Abstract
We present an assume-guarantee interface algebra for real-time components. In our formalism a component implements a set of task sequences that share a resource. A component interface consists of an arrival rate function and a latency for each task sequence, and a capacity function for the shared resource. The interface specifies that the component guarantees certain task latencies depending on assumptions about task arrival rates and allocated resource capacities. Our algebra defines compatibility and
refinement relations on interfaces. Interface compatibility can be checked on partial designs, even when some component interfaces are yet unknown. In this case interface composition computes as new assumptions the weakest constraints on the unknown components that are necessary to satisfy the specified guarantees. Interface refinement is defined in a way that ensures that compatible interfaces can
be refined and implemented independently. Our algebra thus formalizes an interface-based design methodology that supports both the incremental addition of new components
and the independent stepwise refinement of existing components. We demonstrate the flexibility and efficiency of the
framework through simulation experiments.
Electronic downloads
- HTML
Tom Henzinger, Slobodan Matic. <a
href="http://chess.eecs.berkeley.edu/pubs/92.html"
>An Interface Algebra for Real-time Components</a>,
Proceedings of RTAS 2006, 253-263, April, 2006.
- Plain text
Tom Henzinger, Slobodan Matic. "An Interface Algebra
for Real-time Components". Proceedings of RTAS 2006,
253-263, April, 2006.
- BibTeX
@inproceedings{HenzingerMatic06_InterfaceAlgebraForRealtimeComponents,
author = {Tom Henzinger and Slobodan Matic},
title = {An Interface Algebra for Real-time Components},
booktitle = {Proceedings of RTAS 2006},
pages = {253-263},
month = {April},
year = {2006},
abstract = {We present an assume-guarantee interface algebra
for real-time components. In our formalism a
component implements a set of task sequences that
share a resource. A component interface consists
of an arrival rate function and a latency for each
task sequence, and a capacity function for the
shared resource. The interface specifies that the
component guarantees certain task latencies
depending on assumptions about task arrival rates
and allocated resource capacities. Our algebra
defines compatibility and refinement relations on
interfaces. Interface compatibility can be checked
on partial designs, even when some component
interfaces are yet unknown. In this case interface
composition computes as new assumptions the
weakest constraints on the unknown components that
are necessary to satisfy the specified guarantees.
Interface refinement is defined in a way that
ensures that compatible interfaces can be refined
and implemented independently. Our algebra thus
formalizes an interface-based design methodology
that supports both the incremental addition of new
components and the independent stepwise refinement
of existing components. We demonstrate the
flexibility and efficiency of the framework
through simulation experiments.},
URL = {http://chess.eecs.berkeley.edu/pubs/92.html}
}
Posted by Slobodan Matic on 11 May 2006.
Groups: chess chesslocal
For additional information, see the
Publications FAQ or
contact webmaster at chess eecs berkeley edu.
Notice:
This material is presented to ensure timely dissemination of scholarly
and technical work. Copyright and all rights therein are retained by
authors or by other copyright holders. All persons copying this
information are expected to adhere to the terms and constraints
invoked by each author's copyright.
