一个基于分层lst的任务调度器，用于支持空闲时间监控的基于noc的mpsoc

2015 IEEE International Conference on Electronics, Circuits, and Systems (ICECS) Pub Date : 2015-12-01 DOI:10.1109/ICECS.2015.7440310

Marcelo Ruaro, G. Madalozzo, F. Moraes

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引用次数: 3

摘要

新兴的大规模mpsoc可以有数百个pe(处理元素)，并且需要可扩展的实时支持。从系统的时钟周期模型来看，当前的mpsoc调度方案存在静态行为或缺乏精确的验证。提出了一种分层调度算法。在底层，每个PE执行一个基于本地lst的调度器算法，该算法具有扩展特性，以处理任务间通信和中断开销。在顶层，全局调度器通过使用任务迁移和监视信息来管理运行时任务映射和实时适应。运行时自适应由空闲时间监视支持，空闲时间监视将pe的空闲时间通知全局调度器。监测数据与传统的实时指标相结合，提供了强大的实时管理，正如时钟周期验证所证明的那样，可以在大规模mpsoc中实现。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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A hierarchical LST-based task scheduler for NoC-based MPSoCs with slack-time monitoring support

Emerging large-scale MPSoCs can have hundreds of PEs (Processing Elements), and scalable real-time support is necessary. Current proposals in MPSoCs scheduling have static behaviors or lack accurate validation, from a clock cycle model of the system. This paper proposes a hierarchical scheduling algorithm. At the bottom level, each PE executes a local LST-based scheduler algorithm with extended features to handle with inter-task communication and interruption overheads. At the top level, a global scheduler manages at run-time task mapping and real-time adaptation by using task migration and monitored information. The run-time adaptation is supported by a slack time monitoring that notifies the global scheduler the slack time of the PEs. The monitoring data, combined with traditional real-time metrics, provide a powerful real-time management that, as demonstrated by a clock cycle validation, can be implemented in large scale MPSoCs.

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2015 IEEE International Conference on Electronics, Circuits, and Systems (ICECS)

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