Title :
Mainstream Components for Near Hard Real-Time Distributed Simulation and Testing
Author :
Quartier, Fernand ; Verhoyen, Pierre ; Rousse, Nadie ; Manon, Frederic
Author_Institution :
Spacebel, Toulouse, France
Abstract :
At CNES, each new satellite simulation and testing system increases significantly processing requirements and real-time constraints. While mainstream systems allow adding almost unlimited computing resources, whenever there are stronger timing constraints, we arrive in a much unknown territory. To prepare the future, several R&D projects have been carried out that were focusing on related coming technological and programmatic evolutions that are considered enabling factors for the simulation and testing domain. Intelligent use of mainstream PC´s, Linux, multi-core and HLA open up new ways of creating systems that can grow and be maintained for another 20 years.
Keywords :
Linux; digital simulation; multiprocessing systems; real-time systems; CNES; HLA; Linux; PC; R&D project; computing resources; hard real-time distributed simulation and testing; mainstream components; mainstream systems; multicore; programmatic evolution; real-time constraint; satellite simulation; technological evolution; testing system; timing constraint; unknown territory; Clocks; Computational modeling; Global Positioning System; Kernel; Real-time systems; Synchronization; HLA; Mainstream systems; distributed real-time systems; hard real-time; hybrid simulation systems; linux; real-time; test benches;
Conference_Titel :
Distributed Simulation and Real Time Applications (DS-RT), 2014 IEEE/ACM 18th International Symposium on
Conference_Location :
Toulouse
Print_ISBN :
978-1-4799-6143-6
DOI :
10.1109/DS-RT.2014.10
