A modular design space exploration framework for multiprocessor real-time systems

2016 Forum on Specification and Design Languages (FDL) Pub Date : 2016-09-01 DOI:10.1109/FDL.2016.7880377

N. Khalilzad, Kathrin Rosvall, I. Sander

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引用次数: 8

Abstract

Embedded system designers often face a large number of design alternatives when designing complex systems. A designer must select an alternative which satisfies application constraints (e.g. timing requirements) while optimizing system level objectives such as overall energy consumption. The size of design space is often very large giving rise to the need for systematic Design Space Exploration (DSE) methods. In this paper we address the DSE problem for real-time applications that belong to two different domains: (i) streaming applications modeled using the synchronous dataflow graphs; (ii) feedback control tasks modeled using the periodic task model. We consider a heterogeneous multiprocessor platform in which processors communicate through a predictable bus architecture. We present our DSE tool in which the DSE problem is modeled as a constraint satisfaction problem, and it is solved using a constraint programming solver. This approach provides a modular framework in which different constraints such as deadline, throughput and energy consumption can easily be plugged depending on the system being designed.

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多处理器实时系统的模块化设计空间探索框架

嵌入式系统设计人员在设计复杂系统时经常面临大量的设计选择。设计人员必须在优化系统级目标(如总能耗)的同时，选择满足应用约束(如定时要求)的替代方案。设计空间的大小通常非常大，因此需要系统的设计空间探索(DSE)方法。在本文中，我们解决了属于两个不同领域的实时应用程序的DSE问题:(i)使用同步数据流图建模的流应用程序;(ii)使用周期任务模型建模的反馈控制任务。我们考虑一个异构多处理器平台，其中处理器通过可预测的总线体系结构进行通信。我们提出了一种DSE工具，其中将DSE问题建模为约束满足问题，并使用约束规划求解器对其进行求解。这种方法提供了一个模块化框架，在这个框架中，可以根据所设计的系统轻松地插入不同的约束，如截止日期、吞吐量和能耗。

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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2016 Forum on Specification and Design Languages (FDL)

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