Implementation and Comparison of Radix-8 Booth Multiplier by using 32-bit Parallel prefix adders for High Speed Arithmetic Applications

This paper presents the implementation and design of  Radix-8 booth Multiplier using 32-bit parallel prefix adders. High performance processors have a high demand in the industrial market. For achieving high performance and to enhance the computational speed multiplier plays a key role in performanc...

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Bibliographic Details
Published in:Turkish journal of computer and mathematics education 2021-04, Vol.12 (3), p.5673-5683
Main Authors: Lakshmi, Barma Venkata Rama, Noorbasha, Fazal
Format: Article
Language:English
Subjects:
Adding circuits
Algorithms
Delay
Design
Digital systems
High speed
Multiplication & division
Power consumption
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Summary:This paper presents the implementation and design of  Radix-8 booth Multiplier using 32-bit parallel prefix adders. High performance processors have a high demand in the industrial market. For achieving high performance and to enhance the computational speed multiplier plays a key role in performance of digital system. But the major drawback is it consumes more power , area and delay. To enhance the performance and decrease the area consumption and delay there are many algorithms and techniques. In this paper we designed a radix-8 Booth Multiplier using two parallel prefix adders and compared them for best optimized multiplier. The number of parital products generation can be reduced by n/3 by using radix-8 in the multiplier encoding. To further reduce the additions we have used booth recoding mechanism .We have implemented the design using Kogge stone adder and Brent kung adder. We observed that by using parallel prefix adders reduces the delay further more which results in significant increase in speed of the digital systems. The simulation results are carried out on XILINX VIVADO software.
ISSN:1309-4653
1309-4653
DOI:10.17762/turcomat.v12i3.2242