Zero-time communication for automotive multi-core systems under SPP scheduling

Matthias Beckert, Mischa Möstl, R. Ernst
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引用次数: 8

Abstract

Multi-core CPUs are quickly gaining importance in automotive ECUs. While using multi-core architectures for application integration is meanwhile reasonably well understood, parallelization of existing task sets and partitioning of future computation intensive tasks still shows performance limitations and challenges portability and flexibility. The logical execution time (LET) paradigm has been proposed to control core-to-core communication timing which is one of the bottlenecks for automotive system parallelization. We show how to improve the predictability and performance of core-to-core communication by applying only minor modifications to the currently used partitioned static scheduling strategy. The basic idea is to guarantee better response times for low-priority tasks by boosting its priority, thereby using higher priority system slack. It can be selectively applied to individual tasks, and can implement the LET paradigm on all or on a subset of the tasks of a system. It is applicable to lower granularities down to individual runnables which is highly important in automotive applications with large container tasks. We show correctness of the approach and evaluate its performance in a microkernel implementation where it exhibits high performance.
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SPP调度下汽车多核系统的零时间通信
多核cpu在汽车ecu中的重要性正在迅速增加。虽然使用多核体系结构进行应用程序集成已经得到了很好的理解,但现有任务集的并行化和未来计算密集型任务的分区仍然存在性能限制,并对可移植性和灵活性提出了挑战。提出了逻辑执行时间(LET)范式来控制核心间通信时间,这是汽车系统并行化的瓶颈之一。我们将展示如何通过对当前使用的分区静态调度策略进行微小修改来提高核心到核心通信的可预测性和性能。其基本思想是通过提高其优先级来保证低优先级任务的更好响应时间,从而使用高优先级系统松弛。它可以选择性地应用于单个任务,并且可以在系统的所有任务或任务子集上实现LET范式。它适用于低粒度到单个可运行程序,这在具有大型容器任务的汽车应用程序中非常重要。我们展示了该方法的正确性,并在微内核实现中评估了其性能。
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