跟踪缓存性能参数

Proceedings. IEEE International Conference on Computer Design: VLSI in Computers and Processors Pub Date : 2002-09-16 DOI:10.1109/ICCD.2002.1106793

A. Hossain, D. Pease, James S. Burns, N. Parveen

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引用次数: 10

摘要

指令获取机制是超标量处理器的性能瓶颈。处理器的读取性能可以借助称为跟踪缓存的指令存储器结构来提高。给出了描述跟踪缓存微体系结构指令获取性能的参数和解析表达式。表达式预测的指令获取速率与SPEC2000基准程序的模拟获取速率相差7%。给出的解析表达式在Tulip计算机程序中实现。Tulip用于探索参数及其对抓取性能的影响。Tulip还用于理解跟踪缓存性能权衡。

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Trace Cache performance parameters

Instruction fetch mechanism is a performance bottleneck of a Superscalar Processor. The fetch performance of the processor can be improved with the aid of an instruction memory structure known as Trace Cache. This paper presents parameters and analytical expressions, which describe instruction fetch performance of a Trace Cache microarchitecture. The instruction fetch rates predicted by the expressions differ by seven percent from the simulated fetch rates for SPEC2000 benchmark programs. Presented analytical expressions are implemented in a computer program named Tulip. Tulip is used to explore parameters, and their influence on fetch performance. Tulip is also used to understand Trace Cache performance tradeoffs.

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