Timing-driven HW/SW codesign based on task structuring and process timing simulation

Proceedings of the Seventh International Workshop on Hardware/Software Codesign (CODES'99) (IEEE Cat. No.99TH8450) Pub Date : 1999-03-01 DOI:10.1145/301177.301532

Dinesh Ramanathan, Ali Dasdan, Rajesh K. Gupta

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引用次数: 3

Abstract

Task structuring is the process of determining the individual tasks of a system, leading to the system's description as a task graph. This paper shows that RADHA-RATAN, our rate derivation algorithms, can be used to validate various tradeoffs made during task structuring, making this step timing aware. We show how RADHA-RATAN enables construction of a high-level timing model of the system leading to a process timing simulation of the entire system. An interesting aspect of process timing simulation is that it provides the ability to observe system level timing behavior based on timing requirements and analysis before an implementation of the tasks has been carried out. Based on task structuring and process timing simulation we propose a codesign methodology by which a system designer can gain insight into the system's timing performance. This approach enables the designer to reduce expensive timing driven design iterations. We have implemented this methodology in the RADHA-RATAN framework. We illustrate its application by an example.

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基于任务结构和过程时序仿真的时序驱动软硬件协同设计

任务结构化是确定系统中单个任务的过程，从而将系统描述为任务图。本文表明，我们的速率推导算法RADHA-RATAN可用于验证任务结构化过程中所做的各种权衡，使该步骤具有时序意识。我们展示了RADHA-RATAN如何能够构建系统的高级定时模型，从而实现整个系统的过程定时仿真。流程时序模拟的一个有趣方面是，它提供了在执行任务实现之前，基于时序需求和分析来观察系统级时序行为的能力。基于任务结构和过程时序仿真，我们提出了一种协同设计方法，通过该方法，系统设计者可以深入了解系统的时序性能。这种方法使设计人员能够减少昂贵的时间驱动的设计迭代。我们已经在RADHA-RATAN框架中实施了这种方法。我们通过一个例子来说明它的应用。

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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来源期刊

Proceedings of the Seventh International Workshop on Hardware/Software Codesign (CODES'99) (IEEE Cat. No.99TH8450)

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