可扩展单片多处理器的体系结构设计

Proceedings Euromicro Symposium on Digital System Design. Architectures, Methods and Tools Pub Date : 2002-09-04 DOI:10.1109/DSD.2002.1115361

B. Theelen, A. Verschueren

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引用次数: 4

摘要

现在片上系统技术正在兴起，单片多处理器变得可行。然而，设计这种系统的一个关键问题是其互连和存储架构的复杂性。用于实时(嵌入式)系统的单芯片多处理器的一个例子是多微处理器(M/spl mu/P)。它的体系结构由数量可伸缩的相同主处理器和一组可配置的共享协处理器组成。此外，还包括一个片上实时操作系统内核，以支持在一组主处理器上进行透明的多任务处理。本文探讨了M/spl mu/P所基于的体系结构平台的主要设计问题。

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Architecture design of a scalable single-chip multi-processor

Now that system-on-chip technology is emerging, single-chip multi-processors are becoming feasible. A key problem of designing such systems is however the complexity of their interconnect and memory architecture. An example of a single-chip multi-processor for real-time (embedded) systems is the Multi Micro Processor (M/spl mu/P). Its architecture consists of a scalable number of identical master processors and a configurable set of shared co-processors. Additionally, an on-chip real-time operating system kernel is included to support transparent multi-tasking over the set of master processors. In this paper we explore the main design issues of the architecture platform on which the M/spl mu/P is based.

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Proceedings Euromicro Symposium on Digital System Design. Architectures, Methods and Tools

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