缓存处理器通用寄存器

Proceedings of ICCD '95 International Conference on Computer Design. VLSI in Computers and Processors Pub Date : 1995-10-02 DOI:10.1109/ICCD.1995.528826

R. Yung, Neil C. Wilhelm

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引用次数: 59

摘要

VLIW、多上下文或窗口寄存器体系结构可能需要100个或更多的处理器寄存器。设计一个包含如此多寄存器的寄存器文件以满足处理器周期时间要求是很困难的。我们建议通过利用处理器管道中被绕过的寄存器值来解决这个问题，并用一个小的寄存器缓存提供的值来补充被绕过的值。如果寄存器缓存足够小，则可以将其设计为满足快速的目标周期时间。我们把这种绕过和寄存器缓存的组合称为寄存器记分牌和缓存。我们建立了一个简单的性能模型，并通过仿真表明，它可以有效地用于窗口寄存器体系结构。

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Caching processor general registers

VLIW, multi-context, or windowed-register architectures may require one hundred or more processor registers. It can be difficult to design a register file with so many registers that meets processor cycle time requirements. We propose to resolve this problem by taking advantage of register values that are bypassed within a processor's pipeline, and supplementing the bypassed values with values supplied by a small register cache. If the register cache is sufficiently small then it can be designed to meet a fast target cycle time. We call this combination of bypassing and register caching the register scoreboard and cache. We develop a simple performance model and show by simulations that it can be effective for windowed-register architectures.

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Proceedings of ICCD '95 International Conference on Computer Design. VLSI in Computers and Processors

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