Clock Gating Based Energy Efficient and Thermal Aware Design for Vedic Equation Solver on 28nm and 40nm FPGA

Bishwajeet Pandey; Sujeet Pandey; Shivani Sharma; Kartik Kalia; Khyati Nanda; Dil Muhammad Akbar Hussain

Clock Gating Based Energy Efficient and Thermal Aware Design for Vedic Equation Solver on 28nm and 40nm FPGA

Bishwajeet Pandey, Sujeet Pandey, Shivani Sharma, Kartik Kalia, Khyati Nanda, Dil Muhammad Akbar Hussain

AAU Energy

Research output: Contribution to journal › Conference article in Journal › Research › peer-review

Abstract

In this paper, we are integrating clock gating in design of energy efficient equation solver circuits based on Vedic mathematics. Clock gating is one of the best energy efficient techniques. The Sutra 'SunyamSamyasamuccaye' says thatif sum of numerator and sum of denominator is same then we can equate that sum to zero and find the value of unknown variable. In order to test the portability of our design, we are operating our design with respective frequency of different mobile architecture. Operating frequency of iPhone 6 is 2100MHz. For thermal analysis of our energy efficient design, we have taken temperatures of four different regions of Furnace Creek Ranch (329.85K), Mohenjo-Daro (326.65K), and median temperature of Delhi (313.15K) and standard normal temperature (294.15K). Saving in clock power dissipation is 96.15% for 1400MHz, 94.59% for 1.2GHz, 93.75% for 2100MHz, 94.23% for 1700MHz, 94.54% for 1800MHz, and 94.02% for 2.2GHz, when we use gated clock instead of un gated one on 40nm FPGA and temperature is 329.85K. Power consumption in 28nm FPGA is less than 40nm FPGA.

Original language	English
Journal	International Journal of Control and Automation
Volume	9
Issue number	7
Pages (from-to)	101-112
Number of pages	11
ISSN	2005-4297
Publication status	Published - 2016
Event	International Conference on Recent Trends in Computer Science and Electronics Engineering (RTCSE'16) - Kuala Lumpur, Malaysia Duration: 2 Jan 2016 → 3 Jan 2016 http://www.rtcse.org/

Conference

Conference	International Conference on Recent Trends in Computer Science and Electronics Engineering (RTCSE'16)
Country/Territory	Malaysia
City	Kuala Lumpur
Period	02/01/2016 → 03/01/2016
Internet address	http://www.rtcse.org/

Keywords

Arithmetic Circuits
Vedic Mathematics
FPGA
Energy Efficient
VLSI

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@inproceedings{888c513089e04f38a784e9a288da100e,

title = "Clock Gating Based Energy Efficient and Thermal Aware Design for Vedic Equation Solver on 28nm and 40nm FPGA",

abstract = "In this paper, we are integrating clock gating in design of energy efficient equation solver circuits based on Vedic mathematics. Clock gating is one of the best energy efficient techniques. The Sutra 'SunyamSamyasamuccaye' says thatif sum of numerator and sum of denominator is same then we can equate that sum to zero and find the value of unknown variable. In order to test the portability of our design, we are operating our design with respective frequency of different mobile architecture. Operating frequency of iPhone 6 is 2100MHz. For thermal analysis of our energy efficient design, we have taken temperatures of four different regions of Furnace Creek Ranch (329.85K), Mohenjo-Daro (326.65K), and median temperature of Delhi (313.15K) and standard normal temperature (294.15K). Saving in clock power dissipation is 96.15% for 1400MHz, 94.59% for 1.2GHz, 93.75% for 2100MHz, 94.23% for 1700MHz, 94.54% for 1800MHz, and 94.02% for 2.2GHz, when we use gated clock instead of un gated one on 40nm FPGA and temperature is 329.85K. Power consumption in 28nm FPGA is less than 40nm FPGA.",

keywords = "Arithmetic Circuits, Vedic Mathematics, FPGA, Energy Efficient, VLSI ",

author = "Bishwajeet Pandey and Sujeet Pandey and Shivani Sharma and Kartik Kalia and Khyati Nanda and Hussain, {Dil Muhammad Akbar}",

year = "2016",

language = "English",

volume = "9",

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journal = "International Journal of Control and Automation",

issn = "2005-4297",

publisher = "SERSC Science & Engineering Research Support Society",

number = "7",

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TY - GEN

T1 - Clock Gating Based Energy Efficient and Thermal Aware Design for Vedic Equation Solver on 28nm and 40nm FPGA

AU - Pandey, Bishwajeet

AU - Pandey, Sujeet

AU - Sharma, Shivani

AU - Kalia, Kartik

AU - Nanda, Khyati

AU - Hussain, Dil Muhammad Akbar

PY - 2016

Y1 - 2016

N2 - In this paper, we are integrating clock gating in design of energy efficient equation solver circuits based on Vedic mathematics. Clock gating is one of the best energy efficient techniques. The Sutra 'SunyamSamyasamuccaye' says thatif sum of numerator and sum of denominator is same then we can equate that sum to zero and find the value of unknown variable. In order to test the portability of our design, we are operating our design with respective frequency of different mobile architecture. Operating frequency of iPhone 6 is 2100MHz. For thermal analysis of our energy efficient design, we have taken temperatures of four different regions of Furnace Creek Ranch (329.85K), Mohenjo-Daro (326.65K), and median temperature of Delhi (313.15K) and standard normal temperature (294.15K). Saving in clock power dissipation is 96.15% for 1400MHz, 94.59% for 1.2GHz, 93.75% for 2100MHz, 94.23% for 1700MHz, 94.54% for 1800MHz, and 94.02% for 2.2GHz, when we use gated clock instead of un gated one on 40nm FPGA and temperature is 329.85K. Power consumption in 28nm FPGA is less than 40nm FPGA.

AB - In this paper, we are integrating clock gating in design of energy efficient equation solver circuits based on Vedic mathematics. Clock gating is one of the best energy efficient techniques. The Sutra 'SunyamSamyasamuccaye' says thatif sum of numerator and sum of denominator is same then we can equate that sum to zero and find the value of unknown variable. In order to test the portability of our design, we are operating our design with respective frequency of different mobile architecture. Operating frequency of iPhone 6 is 2100MHz. For thermal analysis of our energy efficient design, we have taken temperatures of four different regions of Furnace Creek Ranch (329.85K), Mohenjo-Daro (326.65K), and median temperature of Delhi (313.15K) and standard normal temperature (294.15K). Saving in clock power dissipation is 96.15% for 1400MHz, 94.59% for 1.2GHz, 93.75% for 2100MHz, 94.23% for 1700MHz, 94.54% for 1800MHz, and 94.02% for 2.2GHz, when we use gated clock instead of un gated one on 40nm FPGA and temperature is 329.85K. Power consumption in 28nm FPGA is less than 40nm FPGA.

KW - Arithmetic Circuits

KW - Vedic Mathematics

KW - FPGA

KW - Energy Efficient

KW - VLSI

UR - http://www.earticle.net/article.aspx?sn=281432

M3 - Conference article in Journal

SN - 2005-4297

VL - 9

SP - 101

EP - 112

JO - International Journal of Control and Automation

JF - International Journal of Control and Automation

IS - 7

T2 - International Conference on Recent Trends in Computer Science and Electronics Engineering (RTCSE'16)

Y2 - 2 January 2016 through 3 January 2016

ER -

Clock Gating Based Energy Efficient and Thermal Aware Design for Vedic Equation Solver on 28nm and 40nm FPGA

Abstract

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Keywords

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