Generating multiprocessor implementations of robotics algorithms from task precedence graphs

Proceedings of IECON '93 - 19th Annual Conference of IEEE Industrial Electronics Pub Date : 1993-11-15 DOI:10.1109/IECON.1993.339424

L. Reeves, M. Farooq

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引用次数: 2

Abstract

In complex control systems, a single processor is often inadequate to meet real-time deadline demands. A decrease in processing time can be attained by decomposing the algorithm into portions which can run concurrently on a multiprocessor. Implementing an algorithm for a multiprocessor operating system can be arduous and time-consuming; a change to multiprocessor or to the decomposition of the algorithm may require that large portions of the implementation be completely re-written. In this paper we present a utility to graphically model a process or algorithm as a directed, acyclic graph of nodes. The calculations which each node are to perform can then be entered by a programmer. The utility determines a node-to-processor allocation, then combines the node calculations allocated to each processor, and generates all initialisation and inter-node communications code. We present this utility as a tool for investigating multiprocessor multi-tasking algorithms, with application to robotics and control processes. Results of processes which have been so modelled are given.<>

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从任务优先图生成机器人算法的多处理器实现

在复杂的控制系统中，单个处理器往往不足以满足实时截止日期的要求。通过将算法分解成可以在多处理器上并发运行的部分，可以减少处理时间。实现多处理器操作系统的算法可能是艰巨而耗时的;对多处理器或算法分解的更改可能需要完全重写实现的大部分内容。在本文中，我们提出了一个实用程序，以图形方式建模的过程或算法作为一个有向的，无环图的节点。然后，程序员可以输入每个节点要执行的计算。该实用程序确定节点到处理器的分配，然后组合分配给每个处理器的节点计算，并生成所有初始化和节点间通信代码。我们将此工具作为研究多处理器多任务算法的工具，并将其应用于机器人和控制过程。文中给出了用这种方法模拟的过程的结果。

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 IECON '93 - 19th Annual Conference of IEEE Industrial Electronics

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