Utilization of power is a major aspect in the design of integrated circuits. Since, adders are mostly employed in these circuits, we should design them effectively. Here, we propose an easy and effective method in decreasing the maximum consumption of power. Carry Select Adder is the one which is dependent on the design of two adders. We present a high performance low-power adder that is implemented. Also, here in Carry Select Adder, Binary Excess Code-1is replaced by Ripple Carry Adder. After analyzing the results, we can come to a conclusion that the architecture which is proposed will have better results in terms of consumption of power compared to conventional techniques. 
One of the fastest adders is Carry Select Adder (CSLA) and it perform fast arithmetic functions in m...
Adders are the basic unit of arithmetic operations. Due to the rapidly growing mobile industry not o...
Carry select method has deemed to be a good compromise between cost and performance in carry propaga...
The design of high-speed and low-power VLSI architectures need efficient arithmetic processing units...
Arithmetic and Logic Unit (ALU) is a vital component of any CPU. In ALU, adders play a major role no...
Designing of area as well as power proficient high speed systems of data logic are one of the major ...
Design of low power and area-efficient logic systems forms an integral part and largest areas of res...
In electronics, adder is a digital circuit that performs addition of numbers. To perform fast arithm...
In VLSI technology smaller area, less power and faster units are the major concern of VLSI circuits....
Graduation date: 1998Minimizing the dynamic power consumption of a circuit is becoming a more and mo...
The Carry Select Adder is used in many systems to relieve the problem of carry propagation delay whi...
Carry select adder (CSLA) is known to be the fastest adder among the conventional adder structures. ...
Abstract: In the design of Integrated circuits, area occupancy and power consumption plays a vital r...
In the design of Integrated circuits, area occupancy and power consumption plays a vital role becaus...
Abstract — Carry Select Adder (CSLA) is one of the fastest adders used in many data-processing proce...
One of the fastest adders is Carry Select Adder (CSLA) and it perform fast arithmetic functions in m...
Adders are the basic unit of arithmetic operations. Due to the rapidly growing mobile industry not o...
Carry select method has deemed to be a good compromise between cost and performance in carry propaga...
The design of high-speed and low-power VLSI architectures need efficient arithmetic processing units...
Arithmetic and Logic Unit (ALU) is a vital component of any CPU. In ALU, adders play a major role no...
Designing of area as well as power proficient high speed systems of data logic are one of the major ...
Design of low power and area-efficient logic systems forms an integral part and largest areas of res...
In electronics, adder is a digital circuit that performs addition of numbers. To perform fast arithm...
In VLSI technology smaller area, less power and faster units are the major concern of VLSI circuits....
Graduation date: 1998Minimizing the dynamic power consumption of a circuit is becoming a more and mo...
The Carry Select Adder is used in many systems to relieve the problem of carry propagation delay whi...
Carry select adder (CSLA) is known to be the fastest adder among the conventional adder structures. ...
Abstract: In the design of Integrated circuits, area occupancy and power consumption plays a vital r...
In the design of Integrated circuits, area occupancy and power consumption plays a vital role becaus...
Abstract — Carry Select Adder (CSLA) is one of the fastest adders used in many data-processing proce...
One of the fastest adders is Carry Select Adder (CSLA) and it perform fast arithmetic functions in m...
Adders are the basic unit of arithmetic operations. Due to the rapidly growing mobile industry not o...
Carry select method has deemed to be a good compromise between cost and performance in carry propaga...