AbstractThis paper involves the design and comparative analysis of Han-Carlson and Kogge-Stone adders in sub-threshold regime using three different hybrid logic families. The performance metrics considered for the analysis of the adders are: power, delay and PDP. Simulation studies are carried out for 8, 16, 32 and 64 bit input data width. The proposed circuits show an energy efficient agreement with Spectre simulations using BSIM3v3 and BSIM4 models for 90nm CMOS technology at 0.4V supply voltage. The adder implementation outperforms its counterparts exhibiting low power consumption and lesser propagation delay as compared to conventional adders operated in the sub-threshold region
Adder circuits are vital for microprocessors; indeed, apart from the addition itself, either subtrac...
Addition is the basic operation in many modern electronic applications. As the fastest adder,...
Abstract-Parallel Prefix Adder is one of the most fastest type of adder that had been created and de...
AbstractThis paper involves the design and comparative analysis of Han-Carlson and Kogge-Stone adder...
17-20Parallel prefix addition is a technique for speeding up binary addition. Classical parallel pre...
This paper describes the low-power design of a MOS current-mode logarithmic adder. The adder utilize...
This paper presents a pipelined 32 bit sub-threshold adder in a 90nm CMOS technology that combines M...
The demand and the need for low-power circuits is an ever increasing trend particularly due to the a...
Digital circuits operating at subthreshold-voltage levels can achieve extremely low energy consumpti...
ABSTRACT : The growing demand for energy constrained applications and portable devices have created...
The main objective of the thesis is to implement different architectures of 16-bit adders such as; R...
FA is basic cell for arithmetic operation and lots of efforts have put to minimize power consumption...
This paper puts forward different low power adder cells using different XOR gate architectures. Adde...
This paper presents the design exploration of CMOS 64-bit adders designed using threshold logic gate...
The growing demand for energy constrained applications and portable devices have created a dire need...
Adder circuits are vital for microprocessors; indeed, apart from the addition itself, either subtrac...
Addition is the basic operation in many modern electronic applications. As the fastest adder,...
Abstract-Parallel Prefix Adder is one of the most fastest type of adder that had been created and de...
AbstractThis paper involves the design and comparative analysis of Han-Carlson and Kogge-Stone adder...
17-20Parallel prefix addition is a technique for speeding up binary addition. Classical parallel pre...
This paper describes the low-power design of a MOS current-mode logarithmic adder. The adder utilize...
This paper presents a pipelined 32 bit sub-threshold adder in a 90nm CMOS technology that combines M...
The demand and the need for low-power circuits is an ever increasing trend particularly due to the a...
Digital circuits operating at subthreshold-voltage levels can achieve extremely low energy consumpti...
ABSTRACT : The growing demand for energy constrained applications and portable devices have created...
The main objective of the thesis is to implement different architectures of 16-bit adders such as; R...
FA is basic cell for arithmetic operation and lots of efforts have put to minimize power consumption...
This paper puts forward different low power adder cells using different XOR gate architectures. Adde...
This paper presents the design exploration of CMOS 64-bit adders designed using threshold logic gate...
The growing demand for energy constrained applications and portable devices have created a dire need...
Adder circuits are vital for microprocessors; indeed, apart from the addition itself, either subtrac...
Addition is the basic operation in many modern electronic applications. As the fastest adder,...
Abstract-Parallel Prefix Adder is one of the most fastest type of adder that had been created and de...