Mapping HLL constructs into microcode for improved execution speed

MICRO 17 Pub Date : 1984-12-01 DOI:10.1145/800016.808207

V. Milutinovic, D. Roberts, K. Hwang

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引用次数: 1

Abstract

A processor architecture is presented which enables the constructs typical of HLLs to be mapped into the constructs typical of microcode. This mapping is provided only for selected HLL primitives and HLL statements with a relatively small number of operands and parameters. We are concerned about the optimal hardware/software trade-off, and not about the absolute 1:1 correspondence between HLL statements and highly horizontal microcode. Still, our approach enables the software for time-critical applications to be entirely written in the HLL and executed in the microcode, without the execution-time deteriorations typical for the systems with a large semantic gap between the HLL architecture and the processor architecture. This approach is particularly suitable for the time-critical dedicated control and signal processing. Using an extended subset of Fortran 77, one that matches the typical demands of the specified application area, it is shown that the proposed architecture supports the mapping of HLL constructs into microinstructions. A flexible register-transfer level simulator has been designed and implemented. It was used to run kernel routines on various configurations of the proposed architecture.

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将HLL构造映射到微码中以提高执行速度

提出了一种处理器体系结构，使典型的hls结构能够映射到典型的微码结构。此映射仅为选定的HLL原语和具有相对少量操作数和参数的HLL语句提供。我们关心的是最优的硬件/软件权衡，而不是HLL语句和高度水平的微代码之间的绝对1:1对应。尽管如此，我们的方法使时间关键型应用程序的软件完全可以用HLL编写并在微码中执行，而不会出现HLL体系结构和处理器体系结构之间存在巨大语义差距的系统的典型执行时间恶化。这种方法特别适用于时间要求严格的专用控制和信号处理。使用与指定应用程序领域的典型需求相匹配的Fortran 77的扩展子集，表明所提出的体系结构支持将HLL构造映射到微指令。设计并实现了一个灵活的寄存器-传输级模拟器。它用于在所建议的体系结构的各种配置上运行内核例程。

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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MICRO 17

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