Co-synthesis of multiple processor embedded systems for real time applications
thesisposted on 24.05.2021, 12:58 by Anika Awwal
This thesis presents the methods for automating the synthesis of multiprocessor real-time embedded systems. It describes an evolutionary technique of finding an affordable architecture for a multi-mode multi-task system while meeting the real-time constraints imposed by designers. First the synthesis problem is introduced and previous co-synthesis approaches to handle this problem are discussed. Then the description of the proposed co-synthesis framework for real time systems is presented. The co-synthesis framework consists of four main steps, namely processing element allocation, process assignment, scheduling and evaluation. The method determines a set of feasible solutions with optimized partitioning and real-time schedules for processes and data communication. The framework is capable of producing acceptable solutions for critical systems with hard real-time deadlines by employing process level prioritization and by meeting the process level deadlines. Moreover, the proposed scheduling methodology achieves better PE utilization as compared to the conventional non-preemptive scheduling technique. The co-synthesis method is demonstrated by applying it to examples from the literature and to industrial benchmarks, such as auto industry, telecommunication, networking and office automation.