Adders form an almost obligatory component of every contemporary integrated circuit. The prerequisite of the adder is that it is primarily fast and secondarily efficient in terms of power consumption and chip area. This paper presents the pertinent choice for selecting the adder topology with the tradeoff between delay, power consumption and area. The adder topology used in this work are ripple carry adder, carry lookahead adder, carry skip adder, carry select adder, carry increment adder, carry save adder and carry bypass adder. The module functionality and performance issues like area, power dissipation and propagation delay are analyzed at 0.12µm 6metal layer CMOS technology using microwind tool
The carry look-ahead adder (CLA) is well known among the family of high-speed adders. However, a con...
In Very Large Scale Integration (VLSI) designs, Parallel prefix adders (PPA) have the better delay p...
Abstract — The basic building blocks of any processor are an adder. But carry generation is difficul...
Adders form an almost obligatory component of every contemporary integrated circuit. The prerequisit...
In this paper, we present the design of a carry skip adder that achieves low power dissipation and h...
Abstract — LOW-POWER, area-efficient, and high-performance VLSI systems are increasingly used in por...
In this paper, we present and compare the design and the performances of ten different implementatio...
In this paper, we present a full-static carry-skip adder designed to achieve low power dissipation a...
This report compares the area, delay, and gate count complexity of 8, 16, 32, and 64 bit versions of...
In this paper, we design and compare seven meaningful hybrid one-bit full adders topologies that are...
An adder is one of the key hardware blocks in most digital and high performance processors such as d...
Full adder is an essential module in the design and development of all types of processors such as d...
This paper contains various performance improvement techniques of a modified architecture of carry s...
Adders are one of the most widely digital components in the digital integrated circuit design and ar...
In this paper, Carry Select Adder (CSA) architectures are proposed using parallel prefix adders. Ins...
The carry look-ahead adder (CLA) is well known among the family of high-speed adders. However, a con...
In Very Large Scale Integration (VLSI) designs, Parallel prefix adders (PPA) have the better delay p...
Abstract — The basic building blocks of any processor are an adder. But carry generation is difficul...
Adders form an almost obligatory component of every contemporary integrated circuit. The prerequisit...
In this paper, we present the design of a carry skip adder that achieves low power dissipation and h...
Abstract — LOW-POWER, area-efficient, and high-performance VLSI systems are increasingly used in por...
In this paper, we present and compare the design and the performances of ten different implementatio...
In this paper, we present a full-static carry-skip adder designed to achieve low power dissipation a...
This report compares the area, delay, and gate count complexity of 8, 16, 32, and 64 bit versions of...
In this paper, we design and compare seven meaningful hybrid one-bit full adders topologies that are...
An adder is one of the key hardware blocks in most digital and high performance processors such as d...
Full adder is an essential module in the design and development of all types of processors such as d...
This paper contains various performance improvement techniques of a modified architecture of carry s...
Adders are one of the most widely digital components in the digital integrated circuit design and ar...
In this paper, Carry Select Adder (CSA) architectures are proposed using parallel prefix adders. Ins...
The carry look-ahead adder (CLA) is well known among the family of high-speed adders. However, a con...
In Very Large Scale Integration (VLSI) designs, Parallel prefix adders (PPA) have the better delay p...
Abstract — The basic building blocks of any processor are an adder. But carry generation is difficul...