An efficient modified booth multiplier architecture

Multiplier plays an important role in today’s compute intensive applications such as computer graphics and digital signal processing. This thesis described the design of an Efficient Modified Booth Multiplier Architecture. With the tradeoff between speed and area, the design of the Modified Booth...

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Main Author: Razaidi, Hussin
Format: Thesis
Language:English
Published: Universiti Malaysia Perlis (UniMAP) 2012
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Online Access:http://dspace.unimap.edu.my/xmlui/handle/123456789/20815
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Institution: Universiti Malaysia Perlis
Language: English
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spelling my.unimap-208152012-09-04T03:33:38Z An efficient modified booth multiplier architecture Razaidi, Hussin Multiplier Modified Booth Multiplier (MBM) Modified Booth Encoding (MBE) Computer architecture Multiplier plays an important role in today’s compute intensive applications such as computer graphics and digital signal processing. This thesis described the design of an Efficient Modified Booth Multiplier Architecture. With the tradeoff between speed and area, the design of the Modified Booth Multiplier focused on high speed with a moderate increase in area. This was achieved by reducing the critical path delay in the basic element of the multiplier circuit. Multiplication is performed by generating the partial product of Modified Booth Encoding (MBE) and accumulating the entire partial product by an adder or compressor. The research began by examining the available encoding schemes used to generate the partial product and 4:2 compressor that are used to accumulate the partial product. The fastest MBE and the most efficient 4:2 compressor has been used to develop the multiplier. The multiplier performance was improved by adapting various methods such as Simplified Sign Extension (SSE) and a proper tree topology. The SSE method eliminated some counter or adders in a partial product row while the tree topology arrangement of the compressors and their interconnection accumulate the partial product. A Gajski’s rule had been used to evaluate the performance of the multiplier and the result shows that the new multiplier has reduced delays in producing the output. The new multiplier architecture has reduced delays to almost 2% to 7% compared to other multipliers. The high speed multiplier was then extended to develop a Floating Point (FP) multiplier. The FP multiplier had been successfully designed using Altera Quartus II software and implemented on MAX EPM7182SLC84-7 device. The result showed that the FP multiplier is 38% faster compared to conventional FP multiplier. In term of size, the FP multiplier is 26% bigger than conventional circuit. However the increase in area of the circuit can be tolerated since the aim was to enhance the speed of the FP Multiplier 2012-09-04T03:33:38Z 2012-09-04T03:33:38Z 2008 Thesis http://hdl.handle.net/123456789/20815 en Universiti Malaysia Perlis (UniMAP) School of Microelectronic Engineering
institution Universiti Malaysia Perlis
building UniMAP Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaysia Perlis
content_source UniMAP Library Digital Repository
url_provider http://dspace.unimap.edu.my/
language English
topic Multiplier
Modified Booth Multiplier (MBM)
Modified Booth Encoding (MBE)
Computer architecture
spellingShingle Multiplier
Modified Booth Multiplier (MBM)
Modified Booth Encoding (MBE)
Computer architecture
Razaidi, Hussin
An efficient modified booth multiplier architecture
description Multiplier plays an important role in today’s compute intensive applications such as computer graphics and digital signal processing. This thesis described the design of an Efficient Modified Booth Multiplier Architecture. With the tradeoff between speed and area, the design of the Modified Booth Multiplier focused on high speed with a moderate increase in area. This was achieved by reducing the critical path delay in the basic element of the multiplier circuit. Multiplication is performed by generating the partial product of Modified Booth Encoding (MBE) and accumulating the entire partial product by an adder or compressor. The research began by examining the available encoding schemes used to generate the partial product and 4:2 compressor that are used to accumulate the partial product. The fastest MBE and the most efficient 4:2 compressor has been used to develop the multiplier. The multiplier performance was improved by adapting various methods such as Simplified Sign Extension (SSE) and a proper tree topology. The SSE method eliminated some counter or adders in a partial product row while the tree topology arrangement of the compressors and their interconnection accumulate the partial product. A Gajski’s rule had been used to evaluate the performance of the multiplier and the result shows that the new multiplier has reduced delays in producing the output. The new multiplier architecture has reduced delays to almost 2% to 7% compared to other multipliers. The high speed multiplier was then extended to develop a Floating Point (FP) multiplier. The FP multiplier had been successfully designed using Altera Quartus II software and implemented on MAX EPM7182SLC84-7 device. The result showed that the FP multiplier is 38% faster compared to conventional FP multiplier. In term of size, the FP multiplier is 26% bigger than conventional circuit. However the increase in area of the circuit can be tolerated since the aim was to enhance the speed of the FP Multiplier
format Thesis
author Razaidi, Hussin
author_facet Razaidi, Hussin
author_sort Razaidi, Hussin
title An efficient modified booth multiplier architecture
title_short An efficient modified booth multiplier architecture
title_full An efficient modified booth multiplier architecture
title_fullStr An efficient modified booth multiplier architecture
title_full_unstemmed An efficient modified booth multiplier architecture
title_sort efficient modified booth multiplier architecture
publisher Universiti Malaysia Perlis (UniMAP)
publishDate 2012
url http://dspace.unimap.edu.my/xmlui/handle/123456789/20815
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