A low-voltage and low-power true single-phase flip-flop that minimum the total transistor count by using the pass transistor logic circuit scheme is proposed in this paper. Optimization measures lead to a new flip-flop design with better various performances such as speed, power, energy, and layout area. Based on post-layout simulation results using the TSMC CMOS 180 nm and 90 nm technologies, the proposed design achieves the conventional transmission-gate-based flip-flop design with a 53.6% reduction in power consumption and a 63.2% reduction in energy, with 12.5% input data switching activity. In order to further the performance parameters of the proposed design, a shift-register design has been realized. Experimental measurements at 0.5 ...
In integrated circuits, power consumption is a one of the top three challenges like area, power and ...
Among the various building blocks in digital designs, the most complex and power consuming is the fl...
Flip-flops are essential building blocks of sequential digital circuits, but typically occupy a subs...
Abstract: In this paper, implementations of the flip-flops are presented which are level triggered a...
The paper proposed a new design of static SET flip-flop for low power applications. In this work, co...
In this work, a new area and power efficient single edge triggered flip-flop has been proposed. The ...
The increasing demand of portable applications motivates the research on low power and high speed ci...
This paper enumerates a low power, high speed design of flip-flop having less number of transistors....
A new technique is based on the design and comparison between Conventional Transistorized flip flop ...
The design of low-power devices is currently an important area of research due to an increase in dem...
clock system is one of the major power consuming component. It consumes around 40 % of the total sys...
The fast growth of the power density in integrated circuits has made area and power dissipation as t...
A new technique is proposed based on the comparison between Conventional Transistorized Flip flop an...
A fully-static flip-flop structure is proposed and compared to both the conventional CMOS flip-flop ...
In this paper a new technique is proposed based on the comparison between Conventional Transistorize...
In integrated circuits, power consumption is a one of the top three challenges like area, power and ...
Among the various building blocks in digital designs, the most complex and power consuming is the fl...
Flip-flops are essential building blocks of sequential digital circuits, but typically occupy a subs...
Abstract: In this paper, implementations of the flip-flops are presented which are level triggered a...
The paper proposed a new design of static SET flip-flop for low power applications. In this work, co...
In this work, a new area and power efficient single edge triggered flip-flop has been proposed. The ...
The increasing demand of portable applications motivates the research on low power and high speed ci...
This paper enumerates a low power, high speed design of flip-flop having less number of transistors....
A new technique is based on the design and comparison between Conventional Transistorized flip flop ...
The design of low-power devices is currently an important area of research due to an increase in dem...
clock system is one of the major power consuming component. It consumes around 40 % of the total sys...
The fast growth of the power density in integrated circuits has made area and power dissipation as t...
A new technique is proposed based on the comparison between Conventional Transistorized Flip flop an...
A fully-static flip-flop structure is proposed and compared to both the conventional CMOS flip-flop ...
In this paper a new technique is proposed based on the comparison between Conventional Transistorize...
In integrated circuits, power consumption is a one of the top three challenges like area, power and ...
Among the various building blocks in digital designs, the most complex and power consuming is the fl...
Flip-flops are essential building blocks of sequential digital circuits, but typically occupy a subs...