Add to ORKGFull adder is a basic and vital building block for various arithmetic circuits such as multipliers. In this paper, a hybrid 1-bit full adder using complementary metal-oxide semiconductor (CMOS) logic style had been designed. This hybrid adder divided into three modules. Module I is a three transistors XOR gate. Module II is a novel sum circuit which successfully modified with the usage of lesser number of transistors used. Module III is a carry circuit which uses the carry output of module I and several other input to generate carry output. Performance parameters such as power and delay were compared to some of the existing designs. With a 1.8V voltage supply, the average power consumption of proposed hybrid adder was found extremely ...
AbstractThis paper presents a low voltage and high performance 1-bit full adder designed with an eff...
This paper presents the design of high-speed full adder circuits using a new CMOS mixed mode logic f...
In this paper, we proposed an efficient full adder circuit using 16 transistors. The proposed high-s...
Full adder is a basic and vital building block for various arithmetic circuits such as multipliers. ...
Full adder is a basic and vital building block for various arithmetic circuits such as multipliers. ...
In this paper, a hybrid low power and high speed 1-bit full adder design employing both complimentar...
Addition is the vital arithmetic operation and it acts as a base for many arithmetic operations such...
Full-adders are the core element of the complex arithmetic circuits like addition, multiplication, d...
This paper, presents a new design for 1-bit full adder cell using hybrid-CMOS logic style. Using a n...
Various arithmetic circuits such as multipliers require full adder (FA) as the main block for the ci...
In this paper, the design and simulation of a high-speed, low power 6-T XOR-XNOR circuit is carried ...
VLSI technology become one of the most significant and demandable because of the characteristics lik...
Various arithmetic circuits such as multipliers require full adder (FA) as the main block for the ci...
In present work two new designs for single bit full adders have been presented using three transisto...
Abstract--- In this paper we demonstrate the performance analysis of CMOS Full adder circuits in thi...
AbstractThis paper presents a low voltage and high performance 1-bit full adder designed with an eff...
This paper presents the design of high-speed full adder circuits using a new CMOS mixed mode logic f...
In this paper, we proposed an efficient full adder circuit using 16 transistors. The proposed high-s...
Full adder is a basic and vital building block for various arithmetic circuits such as multipliers. ...
Full adder is a basic and vital building block for various arithmetic circuits such as multipliers. ...
In this paper, a hybrid low power and high speed 1-bit full adder design employing both complimentar...
Addition is the vital arithmetic operation and it acts as a base for many arithmetic operations such...
Full-adders are the core element of the complex arithmetic circuits like addition, multiplication, d...
This paper, presents a new design for 1-bit full adder cell using hybrid-CMOS logic style. Using a n...
Various arithmetic circuits such as multipliers require full adder (FA) as the main block for the ci...
In this paper, the design and simulation of a high-speed, low power 6-T XOR-XNOR circuit is carried ...
VLSI technology become one of the most significant and demandable because of the characteristics lik...
Various arithmetic circuits such as multipliers require full adder (FA) as the main block for the ci...
In present work two new designs for single bit full adders have been presented using three transisto...
Abstract--- In this paper we demonstrate the performance analysis of CMOS Full adder circuits in thi...
AbstractThis paper presents a low voltage and high performance 1-bit full adder designed with an eff...
This paper presents the design of high-speed full adder circuits using a new CMOS mixed mode logic f...
In this paper, we proposed an efficient full adder circuit using 16 transistors. The proposed high-s...
