Development and first-phase experimental prototype validation of a single-chip hybrid and reconfigurable multiprocessor signal processor system

Xiaohui Zhao, J. Heath, P. Maxwell, A. Tan, C. Fernando
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引用次数: 3

Abstract

A previously proposed parallel and scalable hybrid data/command driven architecture (HDCA) was dynamic/reconfigurable at defined "application" and "node" levels only and was to be implemented with multiple chips. The HDCA is now being developed and experimentally verified as a versatile high performance fault tolerant single-chip multiprocessor computer system-on-chip (SoC) that can execute a wide range of real-time and/or non-real-time signal processing and other applications. It is now being developed to be dynamic/reconfigurable at three levels: the "application", "node", and "processor architecture" levels. A three-phase final prototype development process is being utilized for a complete HDCA SoC. Each phase includes addition and validation of functionality to allow the architecture to be fully dynamic/reconfigurable, in sequence, at the application, node, and processor architecture levels. Experimental hardware prototype testing results are shown for a first-phase prototype of the HDCA. Experimental hardware prototype testing results illustrate that the single-chip first-phase HDCA prototype is able to achieve its functional goal of being able to correctly execute, in a parallel manner, applications described by process flow graphs of different topologies using a heterogeneous mix of processors.
单片混合可重构多处理器信号处理系统的开发和第一阶段实验样机验证
先前提出的并行和可扩展的混合数据/命令驱动架构(HDCA)仅在定义的“应用”和“节点”级别上是动态/可重构的,并且可以用多个芯片实现。HDCA目前正在开发和实验验证中,作为一种多功能高性能容错单芯片多处理器计算机片上系统(SoC),可以执行广泛的实时和/或非实时信号处理和其他应用。它现在被开发成在三个层次上是动态/可重构的:“应用程序”、“节点”和“处理器架构”层次。一个完整的HDCA SoC采用了三个阶段的最终原型开发过程。每个阶段都包括功能的添加和验证,以允许体系结构在应用程序、节点和处理器体系结构级别上按顺序完全动态/可重构。给出了HDCA第一阶段样机的硬件样机实验测试结果。实验硬件原型测试结果表明,单芯片第一阶段HDCA原型能够实现其功能目标,即能够使用异构混合处理器以并行方式正确执行由不同拓扑的流程流程图描述的应用程序。
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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