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Gate sizing and replication to minimize the effects of virtual ground parasitic resistances in MTCMOS designs

机译：栅极尺寸调整和复制可最大程度地减小MTCMOS设计中虚拟接地寄生电阻的影响

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The Multi-Threshold CMOS (MTCMOS) technique can significantly reduce sub-threshold leakage currents during the circuit sleep (standby) mode by adding high-V_th power switches (sleep transistors) to low-V_th logic cells. During the active mode of the circuit, the high-V_th transistors and the virtual ground network can be modeled as resistors, which in turn cause voltage of the virtual ground node to rise thereby degrading the switching speed of the logic cells. This paper introduces a new design methodology that minimizes the impact of virtual ground parasitic resistances on the performance of an MTCMOS circuit by using gate resizing and logic restructuring (i.e., gate replication.) Experimental results show that the proposed techniques are highly effective in making the MTCMOS circuits robust with respect to such parasitic resistance effects

机译：多阈值CMOS（MTCMOS）技术可以通过在低V _{上添加高V _{电源开关（睡眠晶体管）来显着减少电路睡眠（待机）模式下的亚阈值泄漏电流第个逻辑单元。在电路的活动模式期间，可以将高V _{晶体管和虚拟接地网络建模为电阻器，这反过来会导致虚拟接地节点的电压升高，从而降低开关速度。逻辑单元。本文介绍了一种新的设计方法，该方法可通过使用栅极大小调整和逻辑重构（即栅极复制）来最大程度地减小虚拟接地寄生电阻对MTCMOS电路性能的影响。 MTCMOS电路对这种寄生电阻效应具有鲁棒性}}}

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《Quality Electronic Design, 2006. ISQED '06》|2006年|p.1-6|共6页
会议地点 San Jose CA(US)
作者
Chanseok Hwang; Changwoo Kang; Pedram M.;
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Dept. of Electr. Eng.-Syst., Southern California Univ., Los Angeles, CA;

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原文格式 PDF
正文语种 eng
中图分类基础理论;
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4. Gate sizing and replication to minimize the effects of virtual ground parasitic resistances in MTCMOS designs [C] . Chanseok Hwang, Changwoo Kang, Pedram, . 2006

机译：栅极尺寸调整和复制可最大程度地降低MTCMOS设计中虚拟接地寄生电阻的影响
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Gate sizing and replication to minimize the effects of virtual ground parasitic resistances in MTCMOS designs

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