带背压的循环静态实时系统缓冲容量的有效计算

13th IEEE Real Time and Embedded Technology and Applications Symposium (RTAS'07) Pub Date : 2006-10-17 DOI:10.1109/RTAS.2007.12

M. Wiggers, M. Bekooij, P. Jansen, G. Smit

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引用次数: 53

摘要

本文描述了一种保守逼近算法，该算法可为描述为循环静态数据流图的应用程序导出接近最小缓冲容量。得到的缓冲区容量满足最大缓冲区容量的约束以及端到端吞吐量和延迟约束。此外，我们表明运行时仲裁的影响可以包含在数据流参与者的响应时间中。我们表明，将MP3播放应用程序建模为循环静态数据流图而不是多速率数据流图会导致缓冲区容量减少多达39%。最后，将该算法应用于实际的车载无线电应用中，其中两个独立的流被处理

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Efficient Computation of Buffer Capacities for Cyclo-Static Real-Time Systems with Back-Pressure

This paper describes a conservative approximation algorithm that derives close to minimal buffer capacities for an application described as a cyclo-static dataflow graph. The resulting buffer capacities satisfy constraints on the maximum buffer capacities and end-to-end throughput and latency constraints. Furthermore we show that the effects of run-time arbitration can be included in the response times of dataflow actors. We show that modelling an MP3 playback application as a cyclo-static dataflow graph instead of a multi-rate dataflow graph results in buffer capacities that are reduced up to 39%. Furthermore, the algorithm is applied to a real-life car-radio application, in which two independent streams are processed

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13th IEEE Real Time and Embedded Technology and Applications Symposium (RTAS'07)

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