From dataflow specification to multiprocessor partitioned time-triggered real-time implementation
Abstract
We consider deterministic functional specifications provided by means of synchronous data-flow models with multiple modes and multiple relative periods. These specifications are extended to include a real-time characterization defining task periods, release dates, and deadlines. Task deadlines can be longer than the period to allow a faithful representation of complex end-to-end flow requirements. We also extend our specifications with partitioning and allocation constraints. Then, we provide algorithms for the off-line scheduling of these specifications onto partitioned time-triggered architectures à la ARINC 653. Allocation of time slots/windows to partitions can be fully or partially provided, or synthesized by our tool. Our algorithms allow the automatic allocation and scheduling onto multi-processor (distributed) systems with a global time base, taking into account communication costs. We demonstrate our technique on a model of space flight software system with strong real-time determinism requirements.
Domains
Embedded Systems
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