A Heuristic Approach to Schedule Periodic Real-Time Tasks on Reconfigurable Hardware

International Conference on Field-programmable Logic and Applications : [proceedings]. International Conference on Field-Programmable Logic and Applications Pub Date : 2005-10-10 DOI:10.1109/FPL.2005.1515787

Klaus Danne, M. Platzner

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引用次数: 50

Abstract

This paper deals with scheduling periodic real-time tasks on reconfigurable hardware devices, such as FPGAs. Reconfigurable hardware devices are increasingly used in embedded systems. To utilize these devices also for systems with real-time constraints, predictable task scheduling is required. We formalize the periodic task scheduling problem and propose two preemptive scheduling algorithms. The first is an adaption of the well-known earliest deadline first (EDF) technique to the FPGA execution model. Although the algorithm reveals good scheduling performance, it lacks an efficient schedulability test and requires a high number of FPGA configurations. The second algorithm uses the concept of servers that reserve area and execution time for other tasks. Tasks are successively merged into servers, which are then scheduled sequentially. While this method is inferior to the EDF-based technique regarding schedulability, it comes with a fast schedulability test and greatly reduces the number of required FPGA configurations.

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在可重构硬件上调度周期性实时任务的启发式方法

本文研究可重构硬件设备(如fpga)上的周期性实时任务调度问题。可重构硬件设备在嵌入式系统中的应用越来越广泛。为了将这些设备也用于具有实时约束的系统，需要可预测的任务调度。形式化了周期任务调度问题，提出了两种抢占式调度算法。第一个是将众所周知的最早截止日期优先(EDF)技术应用于FPGA执行模型。虽然该算法显示出良好的调度性能，但缺乏有效的可调度性测试，并且需要大量的FPGA配置。第二种算法使用服务器的概念，为其他任务保留区域和执行时间。任务依次合并到服务器中，然后依次调度服务器。虽然这种方法在可调度性方面不如基于edf的技术，但它具有快速的可调度性测试，并大大减少了所需FPGA配置的数量。

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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International Conference on Field-programmable Logic and Applications : [proceedings]. International Conference on Field-Programmable Logic and Applications

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