• 中国计算机学会会刊
  • 中国科技核心期刊
  • 中文核心期刊

J4 ›› 2015, Vol. 37 ›› Issue (12): 2222-2227.

• 论文 • 上一篇    下一篇

一种1 GHz多端口低功耗寄存器堆设计

李娇1,2,王良华1,毕卓1,3,刘鹏1   

  1. (1.上海大学微电子研究与开发中心,上海 200072;
    2.上海大学新型显示技术及应用集成教育部重点实验室,上海200072;
    3.上海大学机电工程与自动化学院自动化系,上海 200072)
  • 收稿日期:2014-12-15 修回日期:2015-03-31 出版日期:2015-12-25 发布日期:2015-12-25

A 1 GHz multi-port low-power register file design  

LI Jiao1,2,WANG Lianghua1,BI Zhuo1,3,LIU Peng1   

  1. (1.Microelectronics R&D Center,Shanghai University,Shanghai 200072;
    2.Key Laboratory of Advanced Display and System Application,Shanghai University,Shanghai 200072;
    3.School of Mechatronic Engineering and Automation,Shanghai University,Shanghai 200072,China)
  • Received:2014-12-15 Revised:2015-03-31 Online:2015-12-25 Published:2015-12-25

摘要:

超标量处理器中的寄存器堆通常采用多端口结构以支持宽发射,这种结构对寄存器堆的速度、功耗和面积提出了很大的挑战。设计了一个64*64 bit多端口寄存器堆,该寄存器堆能够在同一个时钟周期内完成8次读操作和4次写操作,通过对传统单端读写结构的存储单元进行改进,提出了电源门控与位线悬空技术相结合的单端读写结构的存储单元,12个读写端口全部采用传输门以加快访问速度。采用PTM 90 nm、65 nm、45 nm和32 nm仿真模型,在Hspice上进行仿真,与传统单端读写结构相比较,所提出的方法能够显著提升寄存器堆的性能,其中写1操作延时降低超过32%,总功耗降低超过45%,而且存储单元的稳定性也得到明显改善。

关键词: 寄存器堆, 单端结构, 电源门控, 位线悬空

Abstract:

Register files in superscalar processors usually adopt the multiport structure to support the wide issue, however, this structure brings in problems such as prolonging access speed, increasing in silicon areas and higher power consumption.We design a 64*64 bit multiport register file which can concurrently accomplish 8 read operations and 4 write operations in one single clock cycle.We improve the conventional singleended memory cell structure and purpose a new structure, which combines the powergating and the bitline floating techniques, and the transmission gate is used in all ports to accelerate the access speed.Simulations are conducted on Hspice with PTM 90 nm, 65 nm, 45 nm and 32 nm technology models compared with the conventional singleended structure, the proposed method  can significantly improve the performance of register files, the delay of write logic 1 decreases more than 32%, and the total power consumption decreases more than 45%; the stability of memory cells is also improved.

Key words: register file;single-ended;power-gating;bit-line floating