一个65nm 3.2GHz 44.2mW低vt寄存器文件，具有鲁棒的低电容动态本地位线

ESSCIRC Conference 2015 - 41st European Solid-State Circuits Conference (ESSCIRC) Pub Date : 2015-11-02 DOI:10.1109/ESSCIRC.2015.7313894

K. Sarfraz, M. Chan

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引用次数: 3

摘要

本文介绍了采用低功耗(LP) 1.2V台积电65nm低vt CMOS工艺制作的多端口寄存器文件(RF)的最高测量读访问频率。采用低电容动态局部位线(LBLs)可降低有功功率。采用基于门控逆变器的新型读端口结构，与传统低vt动态lbl相比，低vt动态lbl的直流噪声鲁棒性提高了94%。2读1写端口32输入× 32位/字射频显示在1.2V下测量的3.2GHz工作，消耗44.2mW有功功率和197.5μW泄漏功率。射频测量低至0.4V。

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A 65nm 3.2GHz 44.2mW Low-Vt register file with robust low-capacitance dynamic local bitlines

This paper presents the highest measured read access frequency for a multi-ported register file (RF) fabricated in a low-power (LP) 1.2V TSMC 65nm low-Vt CMOS process. Active power is reduced with the use of low-capacitance dynamic local bitlines (LBLs). The dc noise robustness of low-Vt dynamic LBLs is enhanced by 94% compared to conventional low-Vt dynamic LBLs with novel gated inverter-based read port architecture. The 2-read, 1-write-ported 32-entry × 32-bit per word RF demonstrates measured 3.2GHz operation at 1.2V by consuming 44.2mW of active power and 197.5μW of leakage power. The RF is measured down to 0.4V.

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ESSCIRC Conference 2015 - 41st European Solid-State Circuits Conference (ESSCIRC)

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