In this paper, we design and compare seven meaningful hybrid one-bit full adders topologies that are optimized in terms of energy-delay trade-offs to operate in multibit ripple carry adders. The goal is to provide the designer with a simple and powerful approach for choosing the best topology for a given power budget, speed performance, or any combination of both. The design and comparison deal with 4-bit and 8-bit ripple carry adders and exploit the derivation of the energy-efficient curves in the energy-delay space. To do so, first we define the procedures to obtain energy consumption and propagation delay by simulating a ripple carry adder designed at a transistor level. Then, we introduce a design methodology to optimize a ripple carry ...
Full adder is an essential module in the design and development of all types of processors such as d...
This paper presents a new early output hybrid input encoded asynchronous full adder designed using d...
The carry look-ahead adder (CLA) is well known among the family of high-speed adders. However, a con...
In this paper we analyze, design and compare six significant topologies of one-bit full adders in te...
In the recent era, voltage reduction procedure is gaining most attention for achieving minimum energ...
In this paper the main topologies of one-bit full adders, including the most interesting of those re...
The 1-bit full adder circuit is one of the most important components of any digital system applicati...
This paper deals with the implementation of Full Adder chains by mixing different CMOS Full Adder to...
Adders form an almost obligatory component of every contemporary integrated circuit. The prerequisit...
Data processing performed by adder circuits need to achieve low delay and low power at the same time...
In this paper, a high-speed low-power 18T CMOS full adder design featuring full-swing output is prop...
By introducing a mathematical programming technique, we detail the full-custom design of a minimum-d...
Full adder is a basic and vital building block for various arithmetic circuits such as multipliers. ...
Abstract: This paper presents a comparative research of low-power and high-speed 4-bit full adder ci...
We present a new asynchronous quasi-delay-insensitive (QDI) block carry lookahead adder with redunda...
Full adder is an essential module in the design and development of all types of processors such as d...
This paper presents a new early output hybrid input encoded asynchronous full adder designed using d...
The carry look-ahead adder (CLA) is well known among the family of high-speed adders. However, a con...
In this paper we analyze, design and compare six significant topologies of one-bit full adders in te...
In the recent era, voltage reduction procedure is gaining most attention for achieving minimum energ...
In this paper the main topologies of one-bit full adders, including the most interesting of those re...
The 1-bit full adder circuit is one of the most important components of any digital system applicati...
This paper deals with the implementation of Full Adder chains by mixing different CMOS Full Adder to...
Adders form an almost obligatory component of every contemporary integrated circuit. The prerequisit...
Data processing performed by adder circuits need to achieve low delay and low power at the same time...
In this paper, a high-speed low-power 18T CMOS full adder design featuring full-swing output is prop...
By introducing a mathematical programming technique, we detail the full-custom design of a minimum-d...
Full adder is a basic and vital building block for various arithmetic circuits such as multipliers. ...
Abstract: This paper presents a comparative research of low-power and high-speed 4-bit full adder ci...
We present a new asynchronous quasi-delay-insensitive (QDI) block carry lookahead adder with redunda...
Full adder is an essential module in the design and development of all types of processors such as d...
This paper presents a new early output hybrid input encoded asynchronous full adder designed using d...
The carry look-ahead adder (CLA) is well known among the family of high-speed adders. However, a con...