CfP: Workshop on Timing Analysis and Synthesis for Synchronous Models (TASS 2013)

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Tue, 10/15/2013 - 3:50pm

Anonymous

****** Deadline extended to Oct 11th, 2013******

Call for Papers:

Workshop on Timing Analysis and Synthesis for Synchronous Models

December 3^rd 2013, Vancouver, Canada

In conjunction with IEEE Real-Time Systems Symposium (RTSS) 2013 (http://2013.ieee-rtss.org/)

Scope of the Workshop

Model-based design of embedded control systems using Synchronous Reactive (SR) models is among the best practices for software development in the automation, automotive and aeronautic industry. In model-based development, the input of the process is a functional model described according to a synchronous reactive formalism, as in the commercial tools Simulink and SCADE.

The real-time systems community has traditionally considered tasks or jobs (from the operating system concept of thread) as the units for the analysis model. However, in model-based design functional models, such as dataflows or networks of synchronous blocks, including extended finite state machines are the input to the SW analysis and synthesis problem. The task (or threads) model becomes an intermediate artifact, and the timing analysis is part of a synthesis problem. Such a new design paradigm imposes new challenges, including the optimal placement of functions, the assignment of priorities (or time slots) to tasks and messages and the optimal packing of communication signals in frames. The problem constraints are the semantics properties of the functional model that need to be preserved, and the task model must guarantee a correct implementation that is feasible and memory effective or time-robust.

The workshop brings a selection of original submitted papers and invited talks discussing problems, issues, solutions and case studies on the above scope. Topics include:

Task design optimization and synthesis starting from functional models
Models for SW implementations and execution platforms.
Scheduler synthesis and optimization of scheduling parameters
Formalization of feasibility regions against time constraints
New algorithms and methods for finding optimality in timing problems or bounding the error with respect to optimal solutions
Practical issues with automatic generation and analysis of real-time SW tasks.
Case studies including synthesis of real-time SW implementations from models.

Paper Submission Guidelines:

TASS seeks original unpublished contributions. All papers should be submitted using EasyChair (https://www.easychair.org/account/signin.cgi?conf=tass2013). Papers must be in PDF format and should include title, authors and affiliation, e-mail address of the contact author. Submissions must be limited to 6 page, single-spaced, double-column IEEE format with 10-point fonts. All submitted papers will be reviewed. Submissions must cover original research material, not necessarily fully developed but with innovative and stimulating ideas, concepts, and realizations. Position papers are acceptable, Each accepted paper must be presented in person by one of the authors.

Important Dates:

Submission Deadline: October 11

Author Notification: October 31

Final Paper: November 6

Web Site and Registration

You can find all information at http://www.cyphy.ece.mcgill.ca/TASS2013. Please register via the IEEE Real-Time Systems Symposium web page (http://2013.ieee-rtss.org/)

Organizers:

Marco Di Natale, Scuola Superiore Sant'Anna (marco@sssup.it)

Haibo Zeng, McGill University (haibo.zeng@mcgill.ca)

Program Committee

Enrico Bini Lund University, Sweden Petru Eles Linkoping University, Sweden

Zhi Han MathWorks Claire Pagetti ONERA, France

Stavros Tripakis Univ. California Berkeley, USA Qi Zhu Univ. of California, Riverside, USA

Cyber-Physical Systems Virtual Organization

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