200mhz超标量RISC处理器电路设计问题

1996 IEEE International Solid-State Circuits Conference. Digest of TEchnical Papers, ISSCC Pub Date : 1996-02-08 DOI:10.1109/ISSCC.1996.488715

N. Vasseghi, P. Koike, L. Yang, D. Freitas, R. Conrad, A. Bomdica, S. Gupta, Moon-Yee Wang, R. Chang, W. Chan, C. Lee, F. Lutz, F. Leu, H. Nguyen, Q. Nasir

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引用次数: 11

摘要

该处理器是实现64位MIPS-4指令集架构的动态issue五路超标量RISC微处理器。它是一个单芯片实现，包含一个中央处理单元、浮点单元、每条32 kB的指令和数据缓存，以及辅助缓存控制。它每个周期获取和解码4条指令，并在依赖性解析后动态地将它们发送给5个完全流水线的执行单元。指令的发布和完成没有顺序，但毕业程序的顺序。寄存器重命名解决指令之间的依赖关系。16.6/spl倍/17.9 mm/sup 2/芯片包含6.8 M晶体管，3.3 V, 4层金属0.35 /spl mu/ M CMOS。第四层金属的厚度是第三层和第二层金属的两倍，用于主时钟树和全球配电。

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200 MHz superscalar RISC processor circuit design issues

This processor is a dynamic issue five-way superscalar RISC microprocessor that implements the 64 bit MIPS-4 instruction set architecture. It is a single chip implementation containing a central processing unit, floating point unit, 32 kB each instruction and data caches, and secondary cache control. It fetches and decodes 4 instructions per cycle and dynamically issues them to 5 fully-pipelined execution units after dependency resolution. Instructions are issued and completed out of order, but graduated in program order. Register renaming resolves dependencies between instructions. The 16.6/spl times/17.9 mm/sup 2/ die contains 6.8 M transistors in 3.3 V, 4-layer metal 0.35 /spl mu/m CMOS. The fourth-layer metal is twice the thickness of third- and second-layer metal and is used for main clock tree and global power distribution.

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来源期刊

1996 IEEE International Solid-State Circuits Conference. Digest of TEchnical Papers, ISSCC

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