Decoding unit with high issue rate for x86 superscalar microprocessors

S.-K. Cheng, R.-Ming Shiu, J. Shann
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引用次数: 1

Abstract

In the new generation of x86 microprocessors, superscalar techniques are used to achieve higher performance by executing multiple instructions in parallel. For compatibility and higher execution parallelism, the decoding units of these microprocessors translate the x86 instructions into primitive operations. These microprocessors translate x86 instructions by the similar way of merging address generating into load/store operations. We develop a new translation strategy of translating isolated address generation operations. Simulation results show that, in high issue rate decoding units, translating isolated address generation operations improves the performance for 20% to 25%. Besides, we find that enhancing the store buffer with the ability of snooping result buses is important for high issue rate decoding units. Furthermore, considering the tradeoff of the hardware cost and performance, we examine the decoding rules to design a decoding unit. According to the simulation results, we suggest a good decoding rule suitable for current commercial programs.
用于x86超标量微处理器的高发放率解码单元
在新一代的x86微处理器中,超标量技术通过并行执行多条指令来实现更高的性能。为了兼容性和更高的执行并行性,这些微处理器的解码单元将x86指令转换为基本操作。这些微处理器通过将地址生成合并为加载/存储操作的类似方式来翻译x86指令。我们开发了一种新的翻译策略,翻译孤立的地址生成操作。仿真结果表明,在高发码率的译码单元中,转换隔离地址生成操作可使译码性能提高20% ~ 25%。此外,我们发现提高存储缓冲区的窥探结果总线的能力对于高问题率解码单元是非常重要的。此外,考虑到硬件成本和性能的权衡,我们研究了解码规则来设计解码单元。根据仿真结果,提出了一种适合当前商用程序的译码规则。
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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