宁波大学学报(理工版)
寧波大學學報(理工版)
저파대학학보(리공판)
JOURNAL OF NINGBO UNIVERSITY(NSEE)
2013年
3期
45-50
,共6页
亚阈值漏电流%沟长偏置%近阈值逻辑%漏功耗减小
亞閾值漏電流%溝長偏置%近閾值邏輯%漏功耗減小
아역치루전류%구장편치%근역치라집%루공모감소
sub-threshold leakage%gate-length biasing%near-threshold logic%leakage power reduction
随着集成电路芯片特征尺寸的不断缩小,减小漏功耗已成为集成电路设计技术的焦点之一。在近阈值逻辑电路中,亚阈值漏电流是其最主要漏电流的构成。根据 MOS 器件沟道长度与亚阈值漏电流之间的非线性关系,通过适度提高MOS器件的沟道长度从而降低CMOS逻辑电路的漏功耗,形成了基于沟长偏置的漏功耗减小技术。应用HSPICE软件对基于45 nm PTM工艺参数沟长偏置为8%的基本逻辑门电路、镜像加法器和传输门加法器的漏电流进行了仿真测试,实验结果表明漏电流约下降了39%~44%。因此沟长偏置技术是一种有效的适用于近阈值逻辑的漏功耗减小技术。
隨著集成電路芯片特徵呎吋的不斷縮小,減小漏功耗已成為集成電路設計技術的焦點之一。在近閾值邏輯電路中,亞閾值漏電流是其最主要漏電流的構成。根據 MOS 器件溝道長度與亞閾值漏電流之間的非線性關繫,通過適度提高MOS器件的溝道長度從而降低CMOS邏輯電路的漏功耗,形成瞭基于溝長偏置的漏功耗減小技術。應用HSPICE軟件對基于45 nm PTM工藝參數溝長偏置為8%的基本邏輯門電路、鏡像加法器和傳輸門加法器的漏電流進行瞭倣真測試,實驗結果錶明漏電流約下降瞭39%~44%。因此溝長偏置技術是一種有效的適用于近閾值邏輯的漏功耗減小技術。
수착집성전로심편특정척촌적불단축소,감소루공모이성위집성전로설계기술적초점지일。재근역치라집전로중,아역치루전류시기최주요루전류적구성。근거 MOS 기건구도장도여아역치루전류지간적비선성관계,통과괄도제고MOS기건적구도장도종이강저CMOS라집전로적루공모,형성료기우구장편치적루공모감소기술。응용HSPICE연건대기우45 nm PTM공예삼수구장편치위8%적기본라집문전로、경상가법기화전수문가법기적루전류진행료방진측시,실험결과표명루전류약하강료39%~44%。인차구장편치기술시일충유효적괄용우근역치라집적루공모감소기술。
With processing chips scaling down, leakage power reduction has become one of the most important design concerns. In this paper, we propose small biases of transistor gate-length to further minimize leakage power based on the fact that the sub-threshold leakage current is the main component of the total leakage in near-threshold logic circuits. Due to the super-linearity between sub-threshold current and gate length, the leakage current reduction can be considerably achieved by slightly increasing the gate-length. Three basic logic gates, a mirror adder and a transmit adder with 8%gate-length biasing are realized and simulated using HSPICE at a 45nm CMOS process with the PTM model. Simulation results show that the leakage current of those circuits is reduced 39%-44%compared with the nominal gate-length ones. Therefore, the gate-length biasing technique is an attractive approach for low leakage near-threshold circuits.
