An extensible infrastructure for modeling and time analysis of pbkp_redictable embedded systems

Abstract:

Efficient design of pbkp_redictable systems on top of multiprocessor-based architectures is challenging. It demands an integration effort to support system models relying on Models-of-Computation (MoC) theory, supporting real-time (RT) analysis and electronic system-level (ESL) design techniques. This paper presents a SystemC-based framework for modelling and time analysis of pbkp_redictable embedded systems which aims such an integration. The framework has features for system-level design and research of pbkp_redictable systems. Moreover, the framework is extensible, to enable experts from different communities to explore and assess their contributions, e.g. new schedulers, schedulability analyses, and pbkp_redictable platform components, without having to rely on a physical platform.

Año de publicación:

2014

Keywords:

• Design space exploration
• TDMA
• Pbkp_redictable systems
• Time Analysis
• SDF
• Performance Estimation

Fuente:

scopus