用于动态重新配置的统一执行环境

Proceedings ECBS'99. IEEE Conference and Workshop on Engineering of Computer-Based Systems Pub Date : 1999-03-07 DOI:10.1109/ECBS.1999.755878

T. Bapty, J. Scott, S. Neema, J. Sztipanovits

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引用次数: 11

摘要

现代高性能嵌入式系统面临着许多挑战。系统必须在快速变化的环境中发挥作用。功耗/尺寸限制了硬件尺寸，而极端的性能要求则需要特定于算法的架构。硬件架构必须在结构上适应不断变化的算法以实现高性能。可重新配置的计算设备提供了能够响应不断变化的环境而改变的体系结构。这种方法的主要难点在于系统设计。在这些系统的设计、捕获和综合中采用了模型集成的方法。目标系统建立在异构计算平台上，包括可配置硬件、ASIC和通用处理器和dsp。该项目是DARPA自适应计算系统资助的项目，涉及与美国陆军/AMICOM的密切合作。

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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Uniform execution environment for dynamic reconfiguration

Modern high-performance embedded systems face many challenges. Systems must function in rapidly changing environments. Power/size constraints limit hardware size, while extreme performance requirements demand algorithm specific architectures. Hardware architectures must structurally adapt to achieve high performance with changing algorithms. Reconfigurable computing devices offer the promise of architectures that change in response to the changing environment. The primary difficulty in this approach lies in system design. A model-integrated approach is used in the design capture and synthesis of these systems. The target systems are built on a heterogeneous computing platform including configurable hardware, ASIC and general purpose processors and DSPs. This project is a DARPA Adaptive Computing Systems funded effort, involving close cooperation with US ARMY/AMICOM.

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Proceedings ECBS'99. IEEE Conference and Workshop on Engineering of Computer-Based Systems

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