Poster Abstract: Slot-Level Time-Triggered Scheduling on COTS Multicore Platform with Resource Contentions

In this work, we present an initial step towards enabling TT scheduling on a real COTS multicore platform P4080. It takes into account inter-core interferences in the on-chip network and the memory sub-system. We propose an approach comprising a runtime mechanism and an offline phase. For the runtime mechanism, we propose two servers running on each core-processing time server and memory access server implemented using built-in hardware monitors. Jointly, the two servers on each core, enforce slot-level offline computed server budget reservations, thereby limiting the maximum inter-core interferences introduced and experienced by each task considering different inter-core interference latencies. In the offline phase, we propose a procedure that can be used by any offline scheduler to compute the bound on variability in execution time of each task while allowing different slot-level memory access server budget reservations. We also did a preliminary bare-metal implementation of our proposed runtime mechanism on a real COTS multicore platform P4080. Overall, our proposed method facilitates integration of COTS multicore platforms in TT systems, while maintaining features of TT architecture like slot-level determinism, clock synchronization, etc.