Reliability prediction from burn-in data fit to reliability models /

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 pu...

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Bibliographic Details
Call Number:Libro Electrónico
Main Author: Bernstein, Joseph B. (Author)
Format: Electronic eBook
Language:Inglés
Published: London [England] : Elsevier, 2014.
Subjects:
Reliability (Engineering)
Constraint programming (Computer science)
Database management.
Logic programming.
Fiabilit�e.
Programmation par contraintes.
Bases de donn�ees > Gestion.
Programmation logique.
TECHNOLOGY & ENGINEERING > Environmental > General.
Database management
Logic programming
Online Access:Texto completo
Table of 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.

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