Add to ORKGAbstract- Gate diffusion input (GDI)—A new technique of low-power digital combinatorial circuit design is described. This technique allows reducing power consumption, propagation delay, and area of digital circuits while maintaining low complexity of logic design. Performance comparison with traditional CMOS and various pass-transistor logic design techniques is presented. The different methods are compared with respect to the layout area, number of devices, delay, and power dissipation
The increasing power consumption in the synchronous circuits is the major concern in the semiconduct...
The advances in the new process technology characteristically come with a multitude of new design va...
The objective vividly defines a new low-power and high-speed logic family; named Self Resetting Logi...
Abstract — Now a days in digital circuit design low power and small area are main issues of concern ...
Gate Diffusion input (GDI) a new technique of designing low-power digital combinational circuit is d...
Advanced Electronic Devices have recently become more prevalent, designers have opted for low power,...
Adders are of fundamental importance in a wide variety of digital systems. This paper presents a nov...
In the present paper, we advise the style of the entire subtract or using GDI technique that will co...
AbstractAddition is an indispensable operation for any high speed digital system, digital signal pro...
Abstract- This paper presents high speed and low power full adder cells designed with an alternative...
Energy performance requirements are forcing designers of next-generation systems to explore approach...
Abstract: Adders are of fundamental importance in a wide variety of digital systems.This paper prese...
Full adder is an important component for designing a processor. As the complexity of the circuit inc...
Abstract—Novel gate-diffusion input (GDI) circuits are applied to asynchronous design. A variety of ...
Null convention logic is a commonly used delay insensitive paradigm for designing asynchronous circu...
The increasing power consumption in the synchronous circuits is the major concern in the semiconduct...
The advances in the new process technology characteristically come with a multitude of new design va...
The objective vividly defines a new low-power and high-speed logic family; named Self Resetting Logi...
Abstract — Now a days in digital circuit design low power and small area are main issues of concern ...
Gate Diffusion input (GDI) a new technique of designing low-power digital combinational circuit is d...
Advanced Electronic Devices have recently become more prevalent, designers have opted for low power,...
Adders are of fundamental importance in a wide variety of digital systems. This paper presents a nov...
In the present paper, we advise the style of the entire subtract or using GDI technique that will co...
AbstractAddition is an indispensable operation for any high speed digital system, digital signal pro...
Abstract- This paper presents high speed and low power full adder cells designed with an alternative...
Energy performance requirements are forcing designers of next-generation systems to explore approach...
Abstract: Adders are of fundamental importance in a wide variety of digital systems.This paper prese...
Full adder is an important component for designing a processor. As the complexity of the circuit inc...
Abstract—Novel gate-diffusion input (GDI) circuits are applied to asynchronous design. A variety of ...
Null convention logic is a commonly used delay insensitive paradigm for designing asynchronous circu...
The increasing power consumption in the synchronous circuits is the major concern in the semiconduct...
The advances in the new process technology characteristically come with a multitude of new design va...
The objective vividly defines a new low-power and high-speed logic family; named Self Resetting Logi...