Add to ORKGThis paper enumerates design of D flip flop with low power and low area for low power applications, for that analysis of various D-flip flops for low power dissipation ,area and delays is carried out at 0.12um to achieve low power, low-area the technology is scaled down to nanometer ranges, due to shrinking process, the leakage power tends to play a vital role in total power consumption at nano meter technology. In this paper, different D flip flop circuits are designed using Berkeley Short Channel Insulated Gate MOSFET (BSIM4) model equations., in this paper to reduce leakage power at 90nm 70nm and 50nm we implement leakage power reduction techniques six techniques are considered they are namely Sleep transistor, sleepy stack, Dual sleep ,...
Abstract — Flip-flops are critical timing elements in digital circuits which have a large impact on ...
Recently, several flip-flops have been proposed to increase their speed while reducing their power a...
ABSTRACT- In present CMOS circuits, the power dissipation caused by leakage current cannot be neglec...
This paper enumerates low power, high speed design of flip-flop having less number of transistors an...
The paper proposed a new design of static SET flip-flop for low power applications. In this work, co...
The advancement of battery operated designs has abundantly increases the memory elements and registe...
Abstract: In this paper, implementations of the flip-flops are presented which are level triggered a...
In this work, a new area and power efficient single edge triggered flip-flop has been proposed. The ...
In present CMOS circuits, the power dissipation caused by leakage current cannot be neglected any mo...
A significant portion of the total power consumption in high performance digital circuits in deep su...
Due to increased demand of portable and battery operated devices, ultra-low power and high speed dev...
Here we are going to discuss the power utilisation and area minimization using flip flops. The flip ...
This paper introduces a Low Power Dual DynamicNode FlipFlop(DDFF) using Sleep Transistor with NMOS. ...
The increasing demand of portable applications motivates the research on low power and high speed ci...
This paper deals with new MTCMOS flip-flop architectures with high speed performance in active mode ...
Abstract — Flip-flops are critical timing elements in digital circuits which have a large impact on ...
Recently, several flip-flops have been proposed to increase their speed while reducing their power a...
ABSTRACT- In present CMOS circuits, the power dissipation caused by leakage current cannot be neglec...
This paper enumerates low power, high speed design of flip-flop having less number of transistors an...
The paper proposed a new design of static SET flip-flop for low power applications. In this work, co...
The advancement of battery operated designs has abundantly increases the memory elements and registe...
Abstract: In this paper, implementations of the flip-flops are presented which are level triggered a...
In this work, a new area and power efficient single edge triggered flip-flop has been proposed. The ...
In present CMOS circuits, the power dissipation caused by leakage current cannot be neglected any mo...
A significant portion of the total power consumption in high performance digital circuits in deep su...
Due to increased demand of portable and battery operated devices, ultra-low power and high speed dev...
Here we are going to discuss the power utilisation and area minimization using flip flops. The flip ...
This paper introduces a Low Power Dual DynamicNode FlipFlop(DDFF) using Sleep Transistor with NMOS. ...
The increasing demand of portable applications motivates the research on low power and high speed ci...
This paper deals with new MTCMOS flip-flop architectures with high speed performance in active mode ...
Abstract — Flip-flops are critical timing elements in digital circuits which have a large impact on ...
Recently, several flip-flops have been proposed to increase their speed while reducing their power a...
ABSTRACT- In present CMOS circuits, the power dissipation caused by leakage current cannot be neglec...