Add to ORKGThe latest advances in mobile battery-powered devices such as the Personal Digital Assistant (PDA) and mobile phones have set new goals in digital VLSI design. The portable devices require high speed and low power consumption. Even low power consumption is the dominant requirement and to do so speed can be compromised. In this paper a novel area efficient latch design is proposed. The simulation results show that the proposed design with less transistor count is better choice for low power and high speed portable applications. Keywords: Latch, Low power, Portable, 8T, 6T, Power consumption, Delay
With the increase in device integration level and the growth in complexity of Integrated circuits, s...
The increasing demand of portable applications motivates the research on low power and high speed ci...
With the increase in device integration level and the growth in complexity of Integrated circuits, s...
Due to increased demand of portable and battery operated devices, ultra-low power and high speed dev...
Low power device design is now a vital field of research due to increase in demand of portable devic...
The paper proposed a new design of static SET flip-flop for low power applications. In this work, co...
In the present day scenario, designing a circuit with low power has become very important and challe...
In this work, a new area and power efficient single edge triggered flip-flop has been proposed. The ...
With the vast advancement in VLSI technology, tens of millions of transistors are integrated on a si...
The advancement of battery operated designs has abundantly increases the memory elements and registe...
This paper enumerates low power, high speed design of flip-flop having less number of transistors an...
In this paper we have proposed efficient designs of low power high speed D latch designed using stac...
The ever expanding market of ultra portable electronic products is compelling the designer to invest...
Due to fast growth of portable devices, power consumption and timing delays are the two important de...
Reduction in leakage current has become a significant concern in nanotechnology-based low-power, low...
With the increase in device integration level and the growth in complexity of Integrated circuits, s...
The increasing demand of portable applications motivates the research on low power and high speed ci...
With the increase in device integration level and the growth in complexity of Integrated circuits, s...
Due to increased demand of portable and battery operated devices, ultra-low power and high speed dev...
Low power device design is now a vital field of research due to increase in demand of portable devic...
The paper proposed a new design of static SET flip-flop for low power applications. In this work, co...
In the present day scenario, designing a circuit with low power has become very important and challe...
In this work, a new area and power efficient single edge triggered flip-flop has been proposed. The ...
With the vast advancement in VLSI technology, tens of millions of transistors are integrated on a si...
The advancement of battery operated designs has abundantly increases the memory elements and registe...
This paper enumerates low power, high speed design of flip-flop having less number of transistors an...
In this paper we have proposed efficient designs of low power high speed D latch designed using stac...
The ever expanding market of ultra portable electronic products is compelling the designer to invest...
Due to fast growth of portable devices, power consumption and timing delays are the two important de...
Reduction in leakage current has become a significant concern in nanotechnology-based low-power, low...
With the increase in device integration level and the growth in complexity of Integrated circuits, s...
The increasing demand of portable applications motivates the research on low power and high speed ci...
With the increase in device integration level and the growth in complexity of Integrated circuits, s...