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  7. Dielectric Breakdown in Gigascale Electronics

Dielectric Breakdown in Gigascale Electronics

Time Dependent Failure Mechanisms

Juan Pablo Borja, Toh-Ming Lu, Joel Plawsky
Livre broché | Anglais | Springerbriefs in Materials
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Description

This book focuses on the experimental and theoretical aspects of the time-dependent breakdown of advanced dielectric films used in gigascale electronics. Coverage includes the most important failure mechanisms for thin low-k films, new and established experimental techniques, recent advances in the area of dielectric failure, and advanced simulations/models to resolve and predict dielectric breakdown, all of which are of considerable importance for engineers and scientists working on developing and integrating present and future chip architectures. The book is specifically designed to aid scientists in assessing the reliability and robustness of electronic systems employing low-k dielectric materials such as nano-porous films. Similarly, the models presented here will help to improve current methodologies for estimating the failure of gigascale electronics at device operating conditions from accelerated lab test conditions. Numerous graphs, tables, and illustrations are included to facilitate understanding of the topics. Readers will be able to understand dielectric breakdown in thin films along with the main failure modes and characterization techniques. In addition, they will gain expertise on conventional as well as new field acceleration test models for predicting long term dielectric degradation.

Spécifications

Parties prenantes

Auteur(s) :
Juan Pablo BorjaToh-Ming LuJoel Plawsky
Editeur:
Springer

Contenu

Nombre de pages :
105
Langue:
Anglais
Collection :
Springerbriefs in Materials

Caractéristiques

EAN:
9783319432182
Date de parution :
26-09-16
Format:
Livre broché
Format numérique:
Trade paperback (VS)
Dimensions :
156 mm x 234 mm
Poids :
172 g

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