利用控制理论和基于模型的延迟预测提高多线程Java微控制器的实时性

10th IEEE International Workshop on Object-Oriented Real-Time Dependable Systems Pub Date : 2005-02-02 DOI:10.1109/WORDS.2005.38

U. Brinkschulte, Mathias Pacher

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引用次数: 9

摘要

我们的目标是研究是否有可能通过封闭反馈回路和基于模型的延迟预测器来控制和稳定在多线程Java处理器上运行的线程的吞吐量(IPC率)。我们在卡尔斯鲁厄大学和奥格斯堡大学开发的Komodo微控制器的处理器模拟器中实现了PID控制器和基于模型的延迟预测器，以模拟两者作为附加硬件模块。GP(保证百分比)调度用于控制线程。评估表明，控制器实现了线程的目标IPC率，并通过延迟预测器稳定了线程的IPC率，从而提高了Java处理器的实时能力。

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Improving the real-time behaviour of a multithreaded Java microcontroller by control theory and model based latency prediction

Our aim is to investigate if it is possible to control and to stabilize the throughput (IPC rate) of a thread running on a multithreaded Java processor by a closed feedback loop and a model based latency predictor. We implemented a PID controller and a model based latency predictor in the processor simulator of the Komodo microcontroller developed at the universities of Karlsruhe and Augsburg to simulate both as additional hardware modules. GP (guaranteed percentage) scheduling is used to control the thread. Evaluations show that the aimed IPC rate of a thread is achieved by the controller and stabilized by the latency predictor thus improving the real-time capabilities of the Java processor.

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10th IEEE International Workshop on Object-Oriented Real-Time Dependable Systems

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