Response Time Analysis of Synchronous Data Flow Programs on a Many-Core Processor

Proceedings of the 24th International Conference on Real-Time Networks and Systems Pub Date : 2016-10-19 DOI:10.1145/2997465.2997472

H. Rihani, M. Moy, Claire Maiza, Robert I. Davis, S. Altmeyer

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引用次数: 56

Abstract

In this paper we introduce a response time analysis technique for Synchronous Data Flow programs mapped to multiple parallel dependent tasks running on a compute cluster of the Kalray MPPA-256 many-core processor. The analysis we derive computes a set of response times and release dates that respect the constraints in the task dependency graph. We extend the Multicore Response Time Analysis (MRTA) framework by deriving a mathematical model of the multi-level bus arbitration policy used by the MPPA. Further, we refine the analysis to account for the release dates and response times of co-runners, and the use of memory banks. Further improvements to the precision of the analysis were achieved by splitting each task into two sequential phases, with the majority of the memory accesses in the first phase, and a small number of writes in the second phase. Our experimental evaluation focused on an avionics case study. Using measurements from the Kalray MPPA-256 as a basis, we show that the new analysis leads to response times that are a factor of 4.15 smaller for this application, than the default approach of assuming worst-case interference on each memory access.

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多核处理器同步数据流程序的响应时间分析

本文介绍了同步数据流程序映射到运行在Kalray MPPA-256多核处理器计算集群上的多个并行依赖任务的响应时间分析技术。我们推导的分析计算了一组响应时间和发布日期，这些时间和发布日期尊重任务依赖关系图中的约束。通过推导MPPA使用的多级总线仲裁策略的数学模型，我们扩展了多核响应时间分析(MRTA)框架。此外，我们对分析进行了细化，以考虑共同运行程序的发布日期和响应时间，以及内存库的使用。进一步提高分析精度的方法是将每个任务分成两个连续的阶段，在第一阶段进行大部分内存访问，在第二阶段进行少量写操作。我们的实验评估集中在一个航空电子案例研究上。使用Kalray MPPA-256的测量作为基础，我们表明，与假设每次内存访问的最坏情况干扰的默认方法相比，新分析导致该应用程序的响应时间缩短了4.15倍。

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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Proceedings of the 24th International Conference on Real-Time Networks and Systems

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