静态指令流微体系结构中指令队列加载影响的建模

[1988] Proceedings of the 21st Annual Workshop on Microprogramming and Microarchitecture - MICRO '21 Pub Date : 1988-01-03 DOI:10.1145/62504.62509

J. Jacobs, A. Uht, R. C. Ord

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引用次数: 2

摘要

提高处理器性能需要利用存在于指令流和处理器本身的并行性:静态指令流微体系结构CONDEL提取并使用隐含在指令流中的机器指令级并发性。处理器内并行性的一个主要来源是指令执行与指令加载的重叠。研究了几种利用静态指令流机执行/加载并行性的方法:流水线、缓冲流水线、分支缓冲和指令负载限制。最后给出了将不同方法结合到微体系结构中的结果。此外，与以往工作中提出的上限相比，结果提供了与传统机器设计更真实的性能比较。

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Modelling The Effects Of Instruction Queue Loading On A Static Instruction Stream Micro-architecture

Increased processor performance requires the exploitation of the parallelism that exists within the instruction stream and within the processor itself: A static instruction stream micro-architecture, CONDEL, extracts and uses the machine instruction level concurrency implicit in the instruction stream. A major source of intraprocessor parallelism is the overlap of instruction execution with instruction loading. The effect of several methods of utilizing the execution/loading parallelism within the static instruction stream machine are studied: pipelining, buffered pipelining, branch buffering and instruction load limiting. The results of incorporating the different methods into the micro-architecture are shown. In addition, the results provide a more realistic performance comparison with conventional machine designs than the upper limits presented in previous work.

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[1988] Proceedings of the 21st Annual Workshop on Microprogramming and Microarchitecture - MICRO '21

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