Title :
Typical worst case response-time analysis and its use in automotive network design
Author :
Quinton, Sophie ; Bone, Torsten T. ; Hennig, Julien ; Neukirchner, Moritz ; Negrean, Mircea ; Ernst, Rolf
Author_Institution :
Rhone-Alpes, INRIA Grenoble, Montbonnot, France
Abstract :
For some automotive applications, worst case performance guarantees are too expensive, but a minimum level of performance must be formally guaranteed. For such applications, we have developed an approach called Typical Worst Case Analysis (TWCA) which can formally bound the number of violations of the computed response-time guarantee in a given time window. In this paper, we demonstrate how it can be used to analyze a real CAN bus with complex load patterns. We investigate the effects of these load patterns and show how the necessary parameters can be derived and verified from traces and specifications. We compare the results to the commonly used base load approximation - like a 50%-limit for cyclic load - showing superior accuracy and expressiveness.
Keywords :
automotive engineering; controller area networks; TWCA; automotive applications; automotive network design; base load approximation; complex load patterns; computed response-time guarantee; cyclic load; real CAN bus; typical worst case analysis; typical worst case response-time analysis; worst case performance guarantees; Analytical models; Computational modeling; Data mining; Load modeling; Time factors; Timing; Vehicles;
Conference_Titel :
Design Automation Conference (DAC), 2014 51st ACM/EDAC/IEEE
Conference_Location :
San Francisco, CA
