一种用于高性能微处理器的快速、高能效CMOS比较器的电路级实现

Proceedings. IEEE International Conference on Computer Design: VLSI in Computers and Processors Pub Date : 2002-09-16 DOI:10.1109/ICCD.2002.1106757

O. Ergin, K. Ghose, Gürhan Küçük, D. Ponomarev

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引用次数: 27

摘要

调制解调器高性能超标量处理器中的数据路径组件采用了大量基于比较器的关联寻址逻辑，这种比较器在不匹配时耗散能量。这些比较器用于检测完全匹配，但由于在CPU的某些组件中，不匹配比完全匹配更常见，因此在关联逻辑中会出现相当大的能源效率低下。我们提出设计两种新的比较器电路，主要在匹配上耗散能量，从而大大节省比较器功耗。采用SPICE模拟了比较器在0.18微米6金属层工艺中的实际VLSI布局，并对微结构级统计进行了评估。

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A circuit-level implementation of fast, energy-efficient CMOS comparators for high-performance microprocessors

Datapath components in modem high performance superscalar processors employ a significant amount of associative addressing logic based on the use of comparators that dissipate energy on a mismatch. These comparators are used to detect a full match, but as mismatches are much more common than full matches in some components of the CPU, considerable energy-inefficiencies occur within the associative logic. We propose the design of two new comparator circuits that predominantly dissipate energy on a match, thus resulting in very significant savings in comparator power dissipation. The proposed designs are evaluated using SPICE simulations of actual VLSI layouts of the comparators in 0.18 micron 6-metal layer process and micro-architectural level statistics.

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来源期刊

Proceedings. IEEE International Conference on Computer Design: VLSI in Computers and Processors

CiteScore

2.30

自引率

0.00%

发文量