多核嵌入式处理器上实时系统的任务调度

2010 IEEE International Conference on Intelligent Systems and Knowledge Engineering Pub Date : 2010-11-01 DOI:10.1109/ISKE.2010.5680756

Jiahai Liu, Maolin Yang

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引用次数: 7

摘要

对于多核嵌入式系统，传统的负载均衡方法由于无法充分利用所有的内核，导致了大量的功耗消耗。本文提出了一种基于周期任务和非周期任务的硬实时多核嵌入式系统负载不平衡策略，以降低系统功耗。调度架构采用两级调度方案。在顶层，周期性任务通过RBound-FF算法绑定到嵌入核，非周期性任务尽可能均匀地分配到其余核。底层采用速率单调的OS调度器调度周期任务，采用截止时间单调的OS调度器调度非周期任务。

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Task scheduling of real-time systems on multi-core embedded processor

For multi-core embedded systems, the traditional load balancing leads to lavish power consumption by fully utilizing all cores. This paper proposes a novel load unbalancing strategy based on periodic and aperiodic tasks in hard real-time multi-core embedded systems to reduce power consumption. The scheduling architecture uses a two-level scheduling scheme. At the top level, the periodic tasks are bounded to embedded cores by RBound-FF algorithm and the aperiodic tasks are dispatched to the rest cores as evenly as possible. At the bottom level, a rate-monotonic OS scheduler is adopted to schedule the periodic tasks and a deadline-monotonic OS scheduler is used to schedule the aperiodic tasks.

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2010 IEEE International Conference on Intelligent Systems and Knowledge Engineering

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