Design & Implementation of 16-bit Carry Skip Adder using Reversible Computing

Abstract

Nowadays, reversible circuits are receiving immense attention because there is no loss of information bit during processing of data. These reversible circuits are better in terms of quantum cost and power consumption. This paper presents the implementation of 16-bit carry skip adder using parity preserving reversible gates. The fault tolerant full adder require to design this proposed circuit can be realized using parity preserving LCG gate and ZPLG gate. Xilinx 14.4 is used to simulate this design.

Authors and Affiliations

Shweta Thakur, Er. Amandeep Singh Bhandari

Keywords

Related Articles

Characterization of irrigation techniques and typology of vegetable gardens in the districts of Covè and Zangnanado in center of Benin

The main objective of this study was to contribute to a better knowledge of the vegetable farm types in the centre of Benin and made inventory of the different irrigation techniques used in the area.To achieve this objec...

Utilization and Conservation of Fisheries Resources of the ChalanBeel, Bangladesh

In Bangladesh, Chalanbeel is the store house of different types of fish and fisheries resources. But now-a-days fish and fisheries iteams are depleting day by day. The preent study was occured for the proper utilization...

Optimization of Convective Heat Transfer Model of Cold Storage with Cylindrical Pin Finned Evaporator Using Taguchi S/N Ratio and ANOVA Analysis

In this work design of experiment have been used to optimize various control factors of a cold storage for reducing the use of electrical energy to overcome the energy crisis and reduce the cost price of the commodities...

Numerical Investigation of Turbulent Flow over a Rotating Circular Cylinder under Marine Conditions

Recent advancements in the field of computational fluid mechanics and the availability of high performance with regard to rotating software computing cylinders (RCs) have drawn attention to the field of flow accelerated...

Design of Computer Program to Differentiate between Continuous and Discontinuous Operation in the PWM

This research studies the electric performance of the DC motor by writing a computer program to differentiate between two mode of operations in the PWM. This mode of operations are continuous and discontinuous. The aim o...

Download PDF file
  • EP ID EP395033
  • DOI 10.9790/9622-0808016872.
  • Views 156
  • Downloads 0

How To Cite

Shweta Thakur, Er. Amandeep Singh Bhandari (2018). Design & Implementation of 16-bit Carry Skip Adder using Reversible Computing. International Journal of engineering Research and Applications, 8(8), 68-72. https://europub.co.uk/articles/-A-395033