Using the Multi-Threaded Computation Model as a Unifying Framework for Hardware-Software Co-Design and Implementation

2003 The Ninth IEEE International Workshop on Object-Oriented Real-Time Dependable Systems Pub Date : 2003-10-01 DOI:10.1109/WORDS.2003.1267546

D. Niehaus, D. Andrews

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引用次数: 10

Abstract

The range of distributed real-time and embedded (DRE) system applications has continued to expand at a vigorous rate. Designers of DRE systems are constantly challenged to provide new capabilities to meet expanding requirements and increased computational needs, while under pressure to provide constantly improving price/performance ratios and shorter times to market. Recently emerging hybrid chips containing both CPUs and FPGA components have the potential to enjoy significant economies of scale, while enabling system designers to include a significant amount of specialization within the FPGA component. However, realizing the promise of these new hybrid CPU/FPGA chips will require programming models supporting a far more integrated view of CPU and FPGA based application components than that provided by current methods. This paper describes methods we are developing for supporting a multithreaded programming model providing strongly integrated interface to CPU and FPGA based component threads.

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采用多线程计算模型作为软硬件协同设计与实现的统一框架

分布式实时和嵌入式(DRE)系统应用的范围继续以蓬勃的速度扩展。DRE系统的设计者不断面临着提供新功能以满足不断扩展的需求和不断增加的计算需求的挑战，同时也面临着不断提高性价比和缩短上市时间的压力。最近出现的包含cpu和FPGA组件的混合芯片具有享受显著规模经济的潜力，同时使系统设计人员能够在FPGA组件中包含大量的专业化。然而，实现这些新的混合CPU/FPGA芯片的承诺将需要编程模型支持CPU和FPGA基于应用程序组件的集成视图，而不是当前方法所提供的。本文描述了我们正在开发的支持多线程编程模型的方法，该模型为基于CPU和FPGA的组件线程提供了强大的集成接口。

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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2003 The Ninth IEEE International Workshop on Object-Oriented Real-Time Dependable Systems

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