Design and analysis of low power using Sleepy Stack and Zig-Zag technique

Now days the design of CMOS becomes greater where the number of transistor in design increased largely. However there are some problem that occurs during the excellent design and the increasing of transistor where the leakage power also increased. Furthermore, the leakage power that occurs makes t...

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Main Author: Wan Nurul Liyana Wan Zulkefle
Other Authors: Nazuhusna Khalid (Advisor)
Format: Learning Object
Language:English
Published: Universiti Malaysia Perlis 2008
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Online Access:http://dspace.unimap.edu.my/xmlui/handle/123456789/1949
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spelling my.unimap-19492008-09-05T01:11:22Z Design and analysis of low power using Sleepy Stack and Zig-Zag technique Wan Nurul Liyana Wan Zulkefle Nazuhusna Khalid (Advisor) Transistors Metal oxide semiconductors, Complementary Very Large Scale Integration (VLSI) Silicon Integrated circuits Low power Now days the design of CMOS becomes greater where the number of transistor in design increased largely. However there are some problem that occurs during the excellent design and the increasing of transistor where the leakage power also increased. Furthermore, the leakage power that occurs makes the design not efficiency and not practical. As the technology feature size shrinks, static power, which was negligible before, becomes an issue as important as dynamic power. Since static power increases dramatically (indeed, even exponentially) in nano scale silicon VLSI technology, the importance of reducing leakage power consumption cannot be overstressed. To solve this problem there are many types of technique of designing the VLSI CMOS appear where the mainly objective is to reducing the leakage power that occurs and achieve the higher performance in terms of speed, delay and power consumption. The sleepy stack technique and zig-zag technique can be used to reduce the leakage power that occurs. The voltage scaling is used where the supply voltage that used is lower to achieve the low power design. In this project concerns on designing 8 bit of ALU, PC and IR using these techniques. Then, from the generated waveform, the delay, speed, area, power consumption and power delay product (PDP) can be determined. From these results the analysis and comparison the performance between both techniques can be done. In sleepy stack technique, the number of transistors that used is more than 60% compared with the zig-zag technique. Sleepy stack Technique produces higher delay than zig-zag technique where total delay for sleepy stack circuit is 135.0ns and the other is 85.0ns. 2008-09-05T01:11:22Z 2008-09-05T01:11:22Z 2008-04 Learning Object http://hdl.handle.net/123456789/1949 en Universiti Malaysia Perlis 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 Transistors
Metal oxide semiconductors, Complementary
Very Large Scale Integration (VLSI)
Silicon
Integrated circuits
Low power
spellingShingle Transistors
Metal oxide semiconductors, Complementary
Very Large Scale Integration (VLSI)
Silicon
Integrated circuits
Low power
Wan Nurul Liyana Wan Zulkefle
Design and analysis of low power using Sleepy Stack and Zig-Zag technique
description Now days the design of CMOS becomes greater where the number of transistor in design increased largely. However there are some problem that occurs during the excellent design and the increasing of transistor where the leakage power also increased. Furthermore, the leakage power that occurs makes the design not efficiency and not practical. As the technology feature size shrinks, static power, which was negligible before, becomes an issue as important as dynamic power. Since static power increases dramatically (indeed, even exponentially) in nano scale silicon VLSI technology, the importance of reducing leakage power consumption cannot be overstressed. To solve this problem there are many types of technique of designing the VLSI CMOS appear where the mainly objective is to reducing the leakage power that occurs and achieve the higher performance in terms of speed, delay and power consumption. The sleepy stack technique and zig-zag technique can be used to reduce the leakage power that occurs. The voltage scaling is used where the supply voltage that used is lower to achieve the low power design. In this project concerns on designing 8 bit of ALU, PC and IR using these techniques. Then, from the generated waveform, the delay, speed, area, power consumption and power delay product (PDP) can be determined. From these results the analysis and comparison the performance between both techniques can be done. In sleepy stack technique, the number of transistors that used is more than 60% compared with the zig-zag technique. Sleepy stack Technique produces higher delay than zig-zag technique where total delay for sleepy stack circuit is 135.0ns and the other is 85.0ns.
author2 Nazuhusna Khalid (Advisor)
author_facet Nazuhusna Khalid (Advisor)
Wan Nurul Liyana Wan Zulkefle
format Learning Object
author Wan Nurul Liyana Wan Zulkefle
author_sort Wan Nurul Liyana Wan Zulkefle
title Design and analysis of low power using Sleepy Stack and Zig-Zag technique
title_short Design and analysis of low power using Sleepy Stack and Zig-Zag technique
title_full Design and analysis of low power using Sleepy Stack and Zig-Zag technique
title_fullStr Design and analysis of low power using Sleepy Stack and Zig-Zag technique
title_full_unstemmed Design and analysis of low power using Sleepy Stack and Zig-Zag technique
title_sort design and analysis of low power using sleepy stack and zig-zag technique
publisher Universiti Malaysia Perlis
publishDate 2008
url http://dspace.unimap.edu.my/xmlui/handle/123456789/1949
_version_ 1643787501767229440
score 13.214268