Efficient modelling and simulation of embedded software multi-tasking using SystemC and OSSS

BIB
Hartmann, Philipp A. and Reinkemeier, Philipp and Kleen, Henning and Nebel, Wolfgang
Since the software part in today's designs is increasingly important, the impact of platform decisions with respect to the hardware and the software infrastructure (OS, scheduler, priorities, mapping) has to be explored in early design phases. In this paper, we present an extension of the existing SystemC™-based OSSS design flow regarding software multi-tasking in system models. The simulation of the OSSS software run-time model supports different scheduling policies, as well as efficient timing annotations, and deadlines. Inter-task communication is modelled via user-defined Shared Objects. The impact of timing annotation granularity on the achievable simulation performance is studied. As a result, a lazy synchronisation scheme is proposed, that is based on omitting SystemC time synchronisations, that do not have observable effects on the application model.
09 / 2008
978-1-4244-2264-7
inproceedings
ECSI
19--24
ANDRES
Analysis and Design of run-time Reconfigurable, heterogeneous Systems

OFFIS Autoren