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Author

Bernstein, Joseph B., author.

Title Reliability prediction from burn-in data fit to reliability models / Joseph B. Bernstein.

Publication Info.	London [England] : Elsevier, 2014.
	Š2014

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Available to Pittsburg State University patrons only.

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Location	Call No.	OPAC Message	Status
Axe Elsevier ScienceDirect Ebook	Electronic Book	---	Available

Description	1 online resource (108 pages) : illustrations
	text txt rdacontent
	computer c rdamedia
	online resource cr rdacarrier
	text file
Bibliography	Includes bibliographical references and index.
Note	Online resource; title from PDF title page (ebrary, viewed March 24, 2014).
Contents	Front Cover; Reliability Prediction from Burn-In Data Fit to Reliability Models; Copyright Page; Contents; Introduction; 1 Shortcut to Accurate Reliability Prediction; 1.1 Background of FIT; 1.2 Multiple Failure Mechanism Model; 1.3 Acceleration Factor; 1.4 New Proportionality Method; 1.5 Chip Designer; 1.6 System Designer; 2 M-HTOL Principles; 2.1 Constant Rate Assumption; 2.2 Reliability Criteria; 2.3 The Failure Rate Curve for Electronic Systems; 2.4 Reliability Testing; 2.5 Accelerated Testing; 3 Failure Mechanisms; 3.1 Time-Dependent Dielectric Breakdown.
	3.1.1 Early Models for Dielectric Breakdown3.1.2 Acceleration Factors; 3.1.3 Models for Ultrathin Dielectric Breakdown; 3.1.4 Statistical Model; 3.2 Hot Carrier Injection; 3.2.1 Hot Carrier Effects; 3.2.2 Acceleration Factor; 3.2.3 Statistical Models for HCI Lifetime; 3.2.4 Lifetime Sensitivity; 3.3 Negative Bias Temperature Instability; 3.3.1 Degradation Models; 3.3.2 Lifetime Models; 3.4 Electromigration; 3.4.1 Lifetime Prediction; 3.4.2 Lifetime Distribution Model; 3.4.3 Lifetime Sensitivity; 3.5 Soft Errors Due to Memory Alpha Particles; 4 New M-HTOL Approach.
	4.1 Problematic Zero Failure Criteria4.2 Single Versus Multiple Competing Mechanisms; 4.3 AF Calculation; 4.3.1 TDDB, EM, and HCI Failure Rate Calculations under Single Failure Mechanism Assumption; 4.3.2 TDDB, EM, and HCI Failure Rate Calculations under Multiple Failure Mechanism Assumption; 4.4 Electronic System CFR Approximation/Justification; 4.4.1 Exponential Distribution; 4.4.2 The Reliability of Complex Systems; 4.4.3 Drenick's Theorem; 4.5 PoF-Based Circuits Reliability Prediction Methodology; 4.5.1 Methodology; 4.5.2 Assumptions; 4.5.3 Input Data; 4.5.4 Device Thermal Analysis.
	4.6 Cell Reliability Estimation4.6.1 ESF Evaluation; 4.6.2 Cell Reliability; 4.7 Chip Reliability Prediction; 4.7.1 Functional Block Reliability; 4.7.2 Power Network EM Estimation; 4.8 Matrix Method; Bibliography.
Summary	This work will educate chip and system designers on a method for accurately predicting circuit and system reliability in order to estimate failures that will occur in the field as a function of operating conditions at the chip level. This book will combine the knowledge taught in many reliability publications and illustrate how to use the knowledge presented by the semiconductor manufacturing companies in combination with the HTOL end-of-life testing that is currently performed by the chip suppliers as part of their standard qualification procedure and make accurate reliability predictions.
Subject	Reliability (Engineering)
	Constraint programming (Computer science)
	Database management.
	Logic programming.
	Fiabilité.
	Programmation par contraintes.
	Bases de données -- Gestion.
	Programmation logique.
	TECHNOLOGY & ENGINEERING -- Environmental -- General.
	Constraint programming (Computer science)
	Database management
	Logic programming
	Reliability (Engineering)
Other Form:	Print version: Bernstein, Joseph B. Reliability prediction from burn-in data fit to reliability models. London, [England] : Elsevier, Š2014 x, 97 pages 9780128007471
ISBN	9780128008195 (electronic bk.)
	0128008199 (electronic bk.)
	1306490383
	9781306490382
	0128007478
	9780128007471
	9780128007471
	0128007478 (Trade Paper)
Standard No.	9780128007471
	AU@ 000052839832
	CHBIS 010295253
	CHNEW 001012171
	CHVBK 327764686
	DEBBG BV042309757
	DEBBG BV042973468
	DEBBG BV043608154
	DEBSZ 406584273
	DEBSZ 414272927
	DEBSZ 431649359
	NLGGC 375338683