ZS-1中央处理器

Proceedings of the second international conference on Architectual support for programming languages and operating systems Pub Date : 1987-10-01 DOI:10.1145/36206.36203

James E. Smith, G. Dermer, B. D. Vanderwarn, S. Klinger, C. Rozewski, D. L. Fowler, K. R. Scidmore, J. Laudon

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引用次数: 88

摘要

宇航公司ZS-1是一种高速、64位计算机系统，设计用于科学和工程应用。ZS-1中央处理器使用解耦架构，将指令分成两个流——一个用于定点/内存地址计算，另一个用于浮点操作。然后并行处理这两个指令流。流水线也广泛用于整个ZS-1。本文描述了ZS-1中央处理器的体系结构和实现，从一些基本的设计目标开始。指令集、管道结构和虚拟内存实现的描述演示了用于满足目标的方法。高性能是通过静态(编译时)指令调度和动态(运行时)调度的结合来实现的。这两种类型的调度都用例子来说明。

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The ZS-1 central processor

The Astronautics ZS-1 is a high speed, 64-bit computer system designed for scientific and engineering applications. The ZS-1 central processor uses a decoupled architecture, which splits instructions into two streams---one for fixed point/memory address computation and the other for floating point operations. The two instruction streams are then processed in parallel. Pipelining is also used extensively throughout the ZS-1.This paper describes the architecture and implementation of the ZS-1 central processor, beginning with some of the basic design objectives. Descriptions of the instruction set, pipeline structure, and virtual memory implementation demonstrate the methods used to satisfy the objectives. High performance is achieved through a combination of static (compile-time) instruction scheduling and dynamic (run-time) scheduling. Both types of scheduling are illustrated with examples.

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Proceedings of the second international conference on Architectual support for programming languages and operating systems

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