With the advent of deep-submicron technologies, leakage power dissipation is a major concern for scaling down portable devices that have burst-mode type integrated circuits. In this paper leakage reduction technique HTLCT (High Threshold Leakage Control Transistor) is discussed. Using high threshold transistors at the place of low threshold leakage control transistors, result in more leakage power reduction as compared to LCT (leakage control transistor) technique but at the scarifies of area and delay. Further, analysis of effect of parametric variation on leakage current and propagation delay in CMOS circuits is performed. It is found that the leakage power dissipation increases with increasing temperature, supply voltage and aspect ratio...
High leakage current in deep-submicrometer regimes is be-coming a significant contributor to power d...
In this paper we present efficient procedures for delay constrained minimization of the power due to...
Technology scaling has taken circuit performance to unprecedented levels in the deep submicron regim...
SummaryWith the advent of deep-submicron technologies, leakage power dissipation is a major concern ...
High leakage current in deep sub-micron regimes is a significant contributor to the power dissipatio...
Minimizations of power dissipation, chip area with higher circuit performance are the necessary and ...
Abstract — Leakage power dissipation has become a sizable proportion of the total power dissipation ...
An electronic system/appliance/portable device with high speed, low power, and feasible area has bec...
A significant portion of the total power consumption in high performance digital circuits in deep su...
Minimizing dynamic power consumption in digital circuits was the primary design objective in most of...
Power dissipation is a key consideration in the design of nano-scale CMOS VLSI circuits. Various tec...
Most of the portable systems, such as cellular communication devices, and laptop computers operate f...
Leakage power and hot-carrier effects are emerging as key concerns in deep sub-micron CMOS technolog...
AbstractThe leakage power dissipation has become one of the most challenging issues in low power VLS...
The effectiveness of the robust dynamic circuit is degraded much by the increase in leakage current ...
High leakage current in deep-submicrometer regimes is be-coming a significant contributor to power d...
In this paper we present efficient procedures for delay constrained minimization of the power due to...
Technology scaling has taken circuit performance to unprecedented levels in the deep submicron regim...
SummaryWith the advent of deep-submicron technologies, leakage power dissipation is a major concern ...
High leakage current in deep sub-micron regimes is a significant contributor to the power dissipatio...
Minimizations of power dissipation, chip area with higher circuit performance are the necessary and ...
Abstract — Leakage power dissipation has become a sizable proportion of the total power dissipation ...
An electronic system/appliance/portable device with high speed, low power, and feasible area has bec...
A significant portion of the total power consumption in high performance digital circuits in deep su...
Minimizing dynamic power consumption in digital circuits was the primary design objective in most of...
Power dissipation is a key consideration in the design of nano-scale CMOS VLSI circuits. Various tec...
Most of the portable systems, such as cellular communication devices, and laptop computers operate f...
Leakage power and hot-carrier effects are emerging as key concerns in deep sub-micron CMOS technolog...
AbstractThe leakage power dissipation has become one of the most challenging issues in low power VLS...
The effectiveness of the robust dynamic circuit is degraded much by the increase in leakage current ...
High leakage current in deep-submicrometer regimes is be-coming a significant contributor to power d...
In this paper we present efficient procedures for delay constrained minimization of the power due to...
Technology scaling has taken circuit performance to unprecedented levels in the deep submicron regim...