Algorithm for Achieving Minimum Energy Consumption in CMOS Circuits Using Multiple Supply and Threshold Voltages at the Module Level

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Algorithm for Achieving Minimum Energy Consumption in CMOS Circuits Using Multiple Supply and Threshold Voltages at the Module Level

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International Conference on Computer Aided Design archive
Proceedings of the 2003 IEEE/ACM international conference on Computer-aided design table of contents

Page: 693

Year of Publication: 2003

ISBN ~ ISSN:1092-3152 , 1-58113-762-1

Authors

Yuvraj Singh Dhillon	Georgia Institute of Technology, Atlanta, GA
Abdulkadir Utku Diril	Georgia Institute of Technology, Atlanta, GA
Abhijit Chatterjee	Georgia Institute of Technology, Atlanta, GA
Hsien-Hsin Sean Lee	Georgia Institute of Technology, Atlanta, GA

Sponsor

SIGDA: ACM Special Interest Group on Design Automation

Publisher

IEEE Computer Society Washington, DC, USA

Bibliometrics

Downloads (6 Weeks): 2, Downloads (12 Months): 19, Citation Count: 8

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DOI Bookmark:	10.1109/ICCAD.2003.27

ABSTRACT

This paper proposes an optimum methodology forassigning supply and threshold voltages to modules in a CMOScircuit such that the overall energy consumption is minimizedfor a given delay constraint. The modules of the circuit shouldhave large enough gate depths such that the delay and energypenalties of the level shifters connecting them are negligible.Both static and dynamic energy are considered in theoptimization. Energy savings of up to 48% have been achievedon various example circuits. The first step in the optimizationfinds optimum supply and threshold voltages for each modulein the circuit. If the circuit has a large number of modules, thisstep might yield a correspondingly large number of differentsupply and threshold voltages for minimum energyconsumption. Since having a large number of different supplyand threshold voltages on an IC is not feasible in currenttechnologies, an additional step clusters the multiple voltagesobtained from the first step into a fixed number of supply andthreshold voltages (for example, 2 different supply voltagesand 2 different threshold voltages). In addition to theapplication of this method to circuit optimization, it can also beapplied to a wide range of problems with delay constraints,such as software tasks running on a dynamically variable V{DD}and V{th} processor.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

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CITED BY 8

	Mongkol Ekpanyapong , Sung Kyu Lim, Integrated retiming and simultaneous Vdd/Vth scaling for total power minimization, Proceedings of the 2006 international symposium on Physical design, April 09-12, 2006, San Jose, California, USA
	Ashish Srivastava , Dennis Sylvester , David Blaauw, Power minimization using simultaneous gate sizing, dual-Vdd and dual-Vth assignment, Proceedings of the 41st annual conference on Design automation, June 07-11, 2004, San Diego, CA, USA
	Yuvraj Singh Dhillon , Abdulkadir Utku Diril , Abhijit Chatterjee , Adit D. Singh, Low-power dual V_th pseudo dual V_dd domino circuits, Proceedings of the 17th symposium on Integrated circuits and system design, September 07-11, 2004, Pernambuco, Brazil
	Koushik Niyogi , Diana Marculescu, Speed and voltage selection for GALS systems based on voltage/frequency islands, Proceedings of the 2005 conference on Asia South Pacific design automation, January 18-21, 2005, Shanghai, China
	Abdulkadir U. Diril , Yuvraj S. Dhillon , Abhijit Chatterjee , Adit D. Singh, Low-power domino circuits using NMOS pull-up on off-critical paths, Proceedings of the 2005 conference on Asia South Pacific design automation, January 18-21, 2005, Shanghai, China
	Yuvraj Singh Dhillon , Abdulkadir Utku Diril , Abhijit Chatterjee, Soft-Error Tolerance Analysis and Optimization of Nanometer Circuits, Proceedings of the conference on Design, Automation and Test in Europe, p.288-293, March 07-11, 2005
	Umit Y. Ogras , Radu Marculescu , Puru Choudhary , Diana Marculescu, Voltage-frequency island partitioning for GALS-based networks-on-chip, Proceedings of the 44th annual conference on Design automation, June 04-08, 2007, San Diego, California
	Umit Y. Ogras , Radu Marculescu , Diana Marculescu , Eun Gu Jung, Design and management of voltage-frequency island partitioned networks-on-chip, IEEE Transactions on Very Large Scale Integration (VLSI) Systems, v.17 n.3, p.330-341, March 2009