Variation-tolerant circuits

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Variation-tolerant circuits: circuit solutions and techniques

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Annual ACM IEEE Design Automation Conference archive
Proceedings of the 42nd annual Design Automation Conference table of contents

Anaheim, California, USA

SESSION: Special session: DFM and variability: theory and practice table of contents

Pages: 762 - 763

Year of Publication: 2005

ISBN:1-59593-058-2

Authors

Jim Tschanz	Intel Corporation, Hillsboro, OR
Keith Bowman	Intel Corporation, Hillsboro, OR
Vivek De	Intel Corporation, Hillsboro, OR

Sponsors

ACM: Association for Computing Machinery
SIGDA: ACM Special Interest Group on Design Automation

Publisher

ACM New York, NY, USA

Bibliometrics

Downloads (6 Weeks): 10, Downloads (12 Months): 83, Citation Count: 5

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ABSTRACT

Die-to-die and within-die variations impact the frequency and power of fabricated dies, affecting functionality, performance, and revenue. Variation-tolerant circuits and post-silicon tuning techniques are important for minimizing the impacts of these variations. This paper describes several circuit techniques that can be employed to ensure efficient circuit operation in the presence of ever-increasing variations.

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.

	1	Shekhar Borkar , Tanay Karnik , Vivek De, Design and reliability challenges in nanometer technologies, Proceedings of the 41st annual conference on Design automation, June 07-11, 2004, San Diego, CA, USA [doi>10.1145/996566.996588]
	2	Shekhar Borkar , Tanay Karnik , Siva Narendra , Jim Tschanz , Ali Keshavarzi , Vivek De, Parameter variations and impact on circuits and microarchitecture, Proceedings of the 40th conference on Design automation, June 02-06, 2003, Anaheim, CA, USA [doi>10.1145/775832.775920]
	3	K. A. Bowman et. al., "Impact of die-to-die and within-die parameter fluctuations on the maximum clock frequency distribution for gigascale Integration," IEEE J. Solid-State Circuits, pp. 183--190, Feb. 2002.
	4	J. Tschanz et. al., "Adaptive body bias for reducing impacts of die-to-die and within-die parameter variations on microprocessor frequency and leakage", IEEE J. Solid-State Circuits, pp. 1396--1402, Nov. 2002.
	5	J. Tschanz et. al., "Effectiveness of adaptive supply voltage and body bias for reducing impact of parameter variations in low power and high performance microprocessors," IEEE J. Solid-State Circuits, pp. 826--829, May 2003.

CITED BY 5

	Alan L. Cox , Kartik Mohanram , Scott Rixner, Dependable ≠ unaffordable, Proceedings of the 1st workshop on Architectural and system support for improving software dependability, p.58-62, October 21-21, 2006, San Jose, California
	Peiyi Zhao , Jason McNeely , Pradeep Golconda , Magdy A. Bayoumi , Robert A. Barcenas , Weidong Kuang, Low-power clock branch sharing double-edge triggered flip-flop, IEEE Transactions on Very Large Scale Integration (VLSI) Systems, v.15 n.3, p.338-345, March 2007
	Eric Humenay , David Tarjan , Kevin Skadron, Impact of process variations on multicore performance symmetry, Proceedings of the conference on Design, automation and test in Europe, April 16-20, 2007, Nice, France
	S. C. Goldstein, The impact of the nanoscale on computing systems, Proceedings of the 2005 IEEE/ACM International conference on Computer-aided design, p.655-661, November 06-10, 2005, San Jose, CA
	Cheng-Kok Koh , Weng-Fai Wong , Yiran Chen , Hai Li, Tolerating process variations in large, set-associative caches: The buddy cache, ACM Transactions on Architecture and Code Optimization (TACO), v.6 n.2, p.1-34, June 2009