The content discusses optimizing the Logical Execution Time (LET) model to enhance timing performance. It introduces the flexible LET model, proposes new optimization algorithms, and explores communication patterns. The paper emphasizes theoretical guarantees and experimental results showcasing improved metrics.
The LET model abstracts task scheduling details for real-time control applications. Flexible LET offers potential performance improvements. New abstractions describe task communication patterns. Optimization algorithms aim to minimize latency metrics.
Compared to default LET, flexible LET shows promise in improving various metrics. The paper organizes a systematic approach to optimize virtual offsets and deadlines efficiently. Experimental results demonstrate significant performance enhancements.
Vers une autre langue
à partir du contenu source
arxiv.org
Questions plus approfondies