This paper deals with proposal of a new dual stack approach for reducing both leakage and dynamic powers. The development of digital integrated circuits is challenged by higher power consumption. Thecombination of higher clock speeds, greater functional integration, and smaller process geometries has contributed to significant growth in power density. Scaling improves transistor density and functionality ona chip. Scaling helps to increase speed and frequency of operation and hence higher performance. As voltages scale downward with the geometries threshold voltages must also decrease to gain the performance advantages of the new technology but leakage current increases exponentially. Today leakage power has become anincreasingly important ...
AbstractThe leakage power dissipation has become one of the most challenging issues in low power VLS...
Minimizing dynamic power consumption in digital circuits was the primary design objective in most of...
The demand of delivering faster, smaller, and highly reliable integrated circuit chips is what drive...
Leakage power has become a serious concern in nanometer CMOS technologies and is a very important is...
Leakage power loss is a major concern in deep-submicron technologies. High-performance processors an...
Abstract—For the most recent CMOS feature sizes (e.g., 90nm and 65nm), leakage power dissipation has...
Reduction in leakage current has become a significant concern in nanotechnology-based low-power, low...
New low power solutions for Very Large Scale Integration (VLSI) are proposed. Especially, we focus o...
Power consumption of VLSI (Very Large Scale Integrated) circuits has been growing at an alarmingly r...
<div>Static power consumption is a major concern in nanometre technologies. Along with technology sc...
In mobile computing and mobile communication applications powered by battery, the battery life is a ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Power dissipation in one of the major concerns of VLSI circuit designers with the launch of battery ...
Scaling of CMOS technology has enabled a phenomenal growth in computing capability throughout the la...
As the threshold voltage is reduced due to voltage scaling in CMOS technology, it leads to increase ...
AbstractThe leakage power dissipation has become one of the most challenging issues in low power VLS...
Minimizing dynamic power consumption in digital circuits was the primary design objective in most of...
The demand of delivering faster, smaller, and highly reliable integrated circuit chips is what drive...
Leakage power has become a serious concern in nanometer CMOS technologies and is a very important is...
Leakage power loss is a major concern in deep-submicron technologies. High-performance processors an...
Abstract—For the most recent CMOS feature sizes (e.g., 90nm and 65nm), leakage power dissipation has...
Reduction in leakage current has become a significant concern in nanotechnology-based low-power, low...
New low power solutions for Very Large Scale Integration (VLSI) are proposed. Especially, we focus o...
Power consumption of VLSI (Very Large Scale Integrated) circuits has been growing at an alarmingly r...
<div>Static power consumption is a major concern in nanometre technologies. Along with technology sc...
In mobile computing and mobile communication applications powered by battery, the battery life is a ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Power dissipation in one of the major concerns of VLSI circuit designers with the launch of battery ...
Scaling of CMOS technology has enabled a phenomenal growth in computing capability throughout the la...
As the threshold voltage is reduced due to voltage scaling in CMOS technology, it leads to increase ...
AbstractThe leakage power dissipation has become one of the most challenging issues in low power VLS...
Minimizing dynamic power consumption in digital circuits was the primary design objective in most of...
The demand of delivering faster, smaller, and highly reliable integrated circuit chips is what drive...