A Unified WCET analysis framework for multicore platforms | Zendy

Sudipta Chattopadhyay | Zendy; Lee Kee Chong | Zendy; Abhik Roychoudhury | Zendy; Timon Kelter | Zendy; Peter Marwedel | Zendy; Heiko Falk | Zendy

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A Unified WCET analysis framework for multicore platforms

Author(s) -

Sudipta Chattopadhyay,

Lee Kee Chong,

Abhik Roychoudhury,

Timon Kelter,

Peter Marwedel,

Heiko Falk

Publication year - 2014

Publication title -

acm transactions on embedded computing systems

Language(s) - English

Resource type - Book series

SCImago Journal Rank - 0.435

H-Index - 56

eISSN - 1558-3465

pISSN - 1539-9087

ISBN - 978-1-4673-0883-0

DOI - 10.1145/2584654

Subject(s) - computer science , multi core processor , benchmark (surveying) , pipeline (software) , worst case execution time , cache , parallel computing , architecture , static timing analysis , computer architecture , embedded system , execution time , operating system , art , geodesy , visual arts , geography

With the advent of multi-core architectures, worst case execution time (WCET) analysis has become an increasingly difficult problem. In this paper, we propose a unified WCET analysis framework for multi-core processors featuring both shared cache and shared bus. Compared to other previous works, our work differs by modeling the interaction of shared cache and shared bus with other basic micro-architectural components (e.g. pipeline and branch predictor). In addition, our framework does not assume a timing anomaly free multi-core architecture for computing the WCET. A detailed experiment methodology suggests that we can obtain reasonably tight WCET estimates in a wide range of benchmark programs.

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