Pre-silicon validation of on-die decoupling capacitors in high speed microprocessors

John S. Brunhaver; Mondira Deb Pant

doi:10.1109/NEWCAS.2007.4487995

Pre-silicon validation of on-die decoupling capacitors in high speed microprocessors

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Power Supply Noise (PSN) is the switching noise that causes power supply voltage fluctuations. PSN can couple to the evaluation nodes of a circuit, causing functional errors and physical damage. For an under-damped low-loss network, this can manifest itself in the form of a slowly decaying transient noise or a potentially more dangerous resonant noise. As power supply voltage and threshold voltage continue to scale down in nanometer technology, noise margins decrease as well, rendering the control of PSN critical in determining the performance and reliability of high speed VLSI circuits. High Frequency Ldi/dt induced PSN can often be combated with placement of small on-die decoupling capacitors (DCAP) [1]. While there exist many solutions for placement and analysis of DCAP in ASIC and SoC designs [2][3][4], there has so far been no formal algorithm for speedy validation of DCAP placement in a pre-silicon custom design. This paper seeks to describe such an algorithm showing a 92x improvement in runtime when compared with a brute force approach.

Original language	English (US)
Title of host publication	2007 IEEE North-East Workshop on Circuits and Systems, NEWCAS 2007
Pages	976-979
Number of pages	4
DOIs	https://doi.org/10.1109/NEWCAS.2007.4487995
State	Published - Dec 1 2007
Externally published	Yes
Event	2007 IEEE North-East Workshop on Circuits and Systems, NEWCAS 2007 - Montreal, QC, Canada Duration: Aug 5 2007 → Aug 8 2007

Publication series

Name	2007 IEEE North-East Workshop on Circuits and Systems, NEWCAS 2007

Other

Other	2007 IEEE North-East Workshop on Circuits and Systems, NEWCAS 2007
Country/Territory	Canada
City	Montreal, QC
Period	8/5/07 → 8/8/07

ASJC Scopus subject areas

Hardware and Architecture
Control and Systems Engineering
Electrical and Electronic Engineering

Access to Document

10.1109/NEWCAS.2007.4487995

Cite this

Pre-silicon validation of on-die decoupling capacitors in high speed microprocessors. / Brunhaver, John S.; Pant, Mondira Deb.
2007 IEEE North-East Workshop on Circuits and Systems, NEWCAS 2007. 2007. p. 976-979 4487995 (2007 IEEE North-East Workshop on Circuits and Systems, NEWCAS 2007).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Brunhaver, JS & Pant, MD 2007, Pre-silicon validation of on-die decoupling capacitors in high speed microprocessors. in 2007 IEEE North-East Workshop on Circuits and Systems, NEWCAS 2007., 4487995, 2007 IEEE North-East Workshop on Circuits and Systems, NEWCAS 2007, pp. 976-979, 2007 IEEE North-East Workshop on Circuits and Systems, NEWCAS 2007, Montreal, QC, Canada, 8/5/07. https://doi.org/10.1109/NEWCAS.2007.4487995

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title = "Pre-silicon validation of on-die decoupling capacitors in high speed microprocessors",

abstract = "Power Supply Noise (PSN) is the switching noise that causes power supply voltage fluctuations. PSN can couple to the evaluation nodes of a circuit, causing functional errors and physical damage. For an under-damped low-loss network, this can manifest itself in the form of a slowly decaying transient noise or a potentially more dangerous resonant noise. As power supply voltage and threshold voltage continue to scale down in nanometer technology, noise margins decrease as well, rendering the control of PSN critical in determining the performance and reliability of high speed VLSI circuits. High Frequency Ldi/dt induced PSN can often be combated with placement of small on-die decoupling capacitors (DCAP) [1]. While there exist many solutions for placement and analysis of DCAP in ASIC and SoC designs [2][3][4], there has so far been no formal algorithm for speedy validation of DCAP placement in a pre-silicon custom design. This paper seeks to describe such an algorithm showing a 92x improvement in runtime when compared with a brute force approach.",

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N2 - Power Supply Noise (PSN) is the switching noise that causes power supply voltage fluctuations. PSN can couple to the evaluation nodes of a circuit, causing functional errors and physical damage. For an under-damped low-loss network, this can manifest itself in the form of a slowly decaying transient noise or a potentially more dangerous resonant noise. As power supply voltage and threshold voltage continue to scale down in nanometer technology, noise margins decrease as well, rendering the control of PSN critical in determining the performance and reliability of high speed VLSI circuits. High Frequency Ldi/dt induced PSN can often be combated with placement of small on-die decoupling capacitors (DCAP) [1]. While there exist many solutions for placement and analysis of DCAP in ASIC and SoC designs [2][3][4], there has so far been no formal algorithm for speedy validation of DCAP placement in a pre-silicon custom design. This paper seeks to describe such an algorithm showing a 92x improvement in runtime when compared with a brute force approach.

AB - Power Supply Noise (PSN) is the switching noise that causes power supply voltage fluctuations. PSN can couple to the evaluation nodes of a circuit, causing functional errors and physical damage. For an under-damped low-loss network, this can manifest itself in the form of a slowly decaying transient noise or a potentially more dangerous resonant noise. As power supply voltage and threshold voltage continue to scale down in nanometer technology, noise margins decrease as well, rendering the control of PSN critical in determining the performance and reliability of high speed VLSI circuits. High Frequency Ldi/dt induced PSN can often be combated with placement of small on-die decoupling capacitors (DCAP) [1]. While there exist many solutions for placement and analysis of DCAP in ASIC and SoC designs [2][3][4], there has so far been no formal algorithm for speedy validation of DCAP placement in a pre-silicon custom design. This paper seeks to describe such an algorithm showing a 92x improvement in runtime when compared with a brute force approach.

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Pre-silicon validation of on-die decoupling capacitors in high speed microprocessors

Abstract

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ASJC Scopus subject areas

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