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null (Ed.)Simultaneous Multithreading (SMT) has the ability to dramatically improve real-time scheduling, but existing methods are cumbersome, frequently need specialized hardware, or are limited to producing table-based schedules. Here, an easily portable method for quickly applying SMT to priority-driven hard real-time systems is given. Using a combination of integer linear programming and heuristic bin-packing, a partitioned Earliest-Deadline-First (EDF) scheduler that takes advantage of SMT is produced. The integer linear programming and partitioning are done offline, but generally require only a few seconds, even given over a hundred tasks. A large-scale schedulability study is conducted, showing that compared to partitioned scheduling without SMT, the schedulable utilization for the considered hardware platform is nearly doubled in the best cases.more » « less
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Existing models used in real-time scheduling are inadequate to take advantage of simultaneous multithreading (SMT), which has been shown to improve performance in many areas of computing, but has seen little application to real-time systems. The SMART task model, which allows for combining SMT and real time by accounting for the variable task execution costs caused by SMT, is introduced, along with methods and conditions for scheduling SMT tasks under global earliest-deadline-first scheduling. The benefits of using SMT are demonstrated through a large-scale schedulability study in which we show that task systems with utilizations 30% larger than what would be schedulable without SMT can be correctly scheduled. This artifact includes benchmark experiments used to compare execution times with and without SMT and code to duplicate the reported schedulability experiments.more » « less
