Fast physics-based via and trace models for signal and power integrity co-analysis

Xiaoxiong Gu; Renato Rimolo-Donadio; Zhenwei Yu; Francesco De Paulis; Young H. Kwark; Matteo Cocchini; Mark B. Ritter; Bruce Archambeault; Albert Ruehli; Jun Fan; Christian Schuster

Fast physics-based via and trace models for signal and power integrity co-analysis

Xiaoxiong Gu
, Renato Rimolo-Donadio
, Zhenwei Yu
, Francesco De Paulis
, Young H. Kwark
, Matteo Cocchini
, Mark B. Ritter
, Bruce Archambeault
, Albert Ruehli
, Jun Fan
, Christian Schuster

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

21 Scopus citations

Abstract

Physics-based models for vias and traces including new component models are applied to simulate multilayer interconnects on printed circuit boards. A variety of interconnect structures, including via arrays and differential links between package via fields, are studied with model-to-hardware correlation. These models also enable efficient signal integrity and power integrity co-analysis with focus on modeling simultaneous switching noise coupled into high-speed signal nets as well as understanding the effects of decoupling capacitor placement. Simulation time has been reduced at least three orders of magnitude with respect to comparable full-wave simulations.

Original language	English
Title of host publication	DesignCon 2010
Pages	1497-1516
Number of pages	20
State	Published - 2010
Externally published	Yes
Event	DesignCon 2010 - Santa Clara, CA, United States Duration: 1 Feb 2010 → 4 Feb 2010

Publication series

Name	DesignCon 2010
Volume	2

Conference

Conference	DesignCon 2010
Country/Territory	United States
City	Santa Clara, CA
Period	1/02/10 → 4/02/10

Cite this

@inproceedings{45c6e15021f6442bbc5fe6b27a67132a,

title = "Fast physics-based via and trace models for signal and power integrity co-analysis",

abstract = "Physics-based models for vias and traces including new component models are applied to simulate multilayer interconnects on printed circuit boards. A variety of interconnect structures, including via arrays and differential links between package via fields, are studied with model-to-hardware correlation. These models also enable efficient signal integrity and power integrity co-analysis with focus on modeling simultaneous switching noise coupled into high-speed signal nets as well as understanding the effects of decoupling capacitor placement. Simulation time has been reduced at least three orders of magnitude with respect to comparable full-wave simulations.",

author = "Xiaoxiong Gu and Renato Rimolo-Donadio and Zhenwei Yu and \{De Paulis\}, Francesco and Kwark, \{Young H.\} and Matteo Cocchini and Ritter, \{Mark B.\} and Bruce Archambeault and Albert Ruehli and Jun Fan and Christian Schuster",

year = "2010",

language = "Ingl{\'e}s",

isbn = "9781617385469",

series = "DesignCon 2010",

pages = "1497--1516",

booktitle = "DesignCon 2010",

note = "DesignCon 2010 ; Conference date: 01-02-2010 Through 04-02-2010",

}

TY - GEN

T1 - Fast physics-based via and trace models for signal and power integrity co-analysis

AU - Gu, Xiaoxiong

AU - Rimolo-Donadio, Renato

AU - Yu, Zhenwei

AU - De Paulis, Francesco

AU - Kwark, Young H.

AU - Cocchini, Matteo

AU - Ritter, Mark B.

AU - Archambeault, Bruce

AU - Ruehli, Albert

AU - Fan, Jun

AU - Schuster, Christian

PY - 2010

Y1 - 2010

N2 - Physics-based models for vias and traces including new component models are applied to simulate multilayer interconnects on printed circuit boards. A variety of interconnect structures, including via arrays and differential links between package via fields, are studied with model-to-hardware correlation. These models also enable efficient signal integrity and power integrity co-analysis with focus on modeling simultaneous switching noise coupled into high-speed signal nets as well as understanding the effects of decoupling capacitor placement. Simulation time has been reduced at least three orders of magnitude with respect to comparable full-wave simulations.

AB - Physics-based models for vias and traces including new component models are applied to simulate multilayer interconnects on printed circuit boards. A variety of interconnect structures, including via arrays and differential links between package via fields, are studied with model-to-hardware correlation. These models also enable efficient signal integrity and power integrity co-analysis with focus on modeling simultaneous switching noise coupled into high-speed signal nets as well as understanding the effects of decoupling capacitor placement. Simulation time has been reduced at least three orders of magnitude with respect to comparable full-wave simulations.

UR - https://www.scopus.com/pages/publications/78650942807

M3 - Contribución a la conferencia

AN - SCOPUS:78650942807

SN - 9781617385469

T3 - DesignCon 2010

SP - 1497

EP - 1516

BT - DesignCon 2010

T2 - DesignCon 2010

Y2 - 1 February 2010 through 4 February 2010

ER -

Fast physics-based via and trace models for signal and power integrity co-analysis

Abstract

Publication series

Conference

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