Design and Implementation of carry select adder using T-Spice - Satpathy, Pinaki
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Adders are the basic building blocks of any processor or data path application. In adder design, carry generation is the critical path. To reduce the power consumption of the data path, we need to reduce the area of the adder. Carry Select Adder is one of the fast adders used in may data path applications. The proposed design is implemented without using multiplexer and RCA structure with Cin=1. Instead of using multiplexer and RCA Cin=1 structure, we use simple combinational circuit. After speed, power dissipation is one of the most important design objectives in integrated circuits. As…mehr

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Produktbeschreibung
Adders are the basic building blocks of any processor or data path application. In adder design, carry generation is the critical path. To reduce the power consumption of the data path, we need to reduce the area of the adder. Carry Select Adder is one of the fast adders used in may data path applications. The proposed design is implemented without using multiplexer and RCA structure with Cin=1. Instead of using multiplexer and RCA Cin=1 structure, we use simple combinational circuit. After speed, power dissipation is one of the most important design objectives in integrated circuits. As adders are the most widely used components in such circuits, the design of efficient adder is of much concern for researchers.
This paper presents a performance analysis of different Fast Adders. The comparison is done on the basis of three performance parameters, i.e. Area, Speed and Power consumption. We also show a modified carry select adder designed at different stages.
Autorenporträt
Pinaki Satpathy has received his Bachelors Degree B.Tech in Electronics and Communication Engineering from Biju Patnaik University of Technology, Orissa, in 2005. He achieved his Master¿s Degree M.Tech in Embedded System at West Bengal University of Technology, Kolkata, in 2010. His research interest is in the fields of Digital VLSI Design, Low Power VLSI Design, Network-on-chip (NOC) Design, etc. Presently, the author is serving as Assistant Professor in the Department of Electronics and communication Engineering, Haldia Institute of Technology, Haldia, West Bengal, India. He has more than eight international publications and two books published so far.