Electromigration in ULSI interconnections /

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Electromigration in ULSI Interconnections provides a comprehensive description of the electromigration in integrated circuits. It is intended for both beginner and advanced readers on electromigration in ULSI interconnections. It begins with the basic knowledge required for a detailed study on elect...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Tan, Cher Ming, 1959-
Autor Corporativo: World Scientific (Firm)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Singapore ; Hackensack, N.J. : World Scientific Pub. Co., ©2010.
Colección:International series on advances in solid state electronics and technology.
Temas:
Integrated circuits > Ultra large scale integration.
Electrodiffusion.
Circuits intégrés à ultra-grande échelle.
Électromigration.
TECHNOLOGY & ENGINEERING > Electronics > Circuits > Integrated.
TECHNOLOGY & ENGINEERING > Electronics > Circuits > General.
Electrodiffusion
Integrated circuits > Ultra large scale integration
Acceso en línea:Texto completo
Tabla de Contenidos:
  • 1. Introduction. 1.1. What is electromigration? 1.2. Importance of electromigration. 1.3. Outlines of this book
  • 2. History of electromigration. 2.1. Understanding the physics of electromigration. 2.2. Electromigration lifetime modeling. 2.3. Electromigration lifetime improvement. 2.4. Electromigration Aware IC design
  • 3. Experimental studies of Al interconnections. 3.1. Introduction. 3.2. Process-induced failure physics. 3.3. Design-induced failure mechanisms. 3.4. Self-induced process during EM. 3.5. Electromigration test structure design. 3.6. Package-Level Electromigration Test (PET). 3.7. Rapid electromigration test. 3.8. Practical consideration in electromigration testing. 3.9. Failure modes in electromigration. 3.10. Test data analysis. 3.11. Failure analysis on EM failures. 3.12. Conclusion
  • 4. Experimental studies of Cu interconnections. 4.1. Different in interconnect processing and its impact on EM physics. 4.2. Process-induced failure physics. 4.3. Design-induced failure mechanism. 4.4. Electromigration testing. 4.5. Statistics of Cu electromigration
  • 5. Numerical modeling of electromigration. 5.1. 1D continuum electromigration modeling. 5.2. 2D EM modeling. 5.3. Electromigration simulation using atomic flux divergence and finite element analaysis. 5.4. Monte Carlo simulation of electromigration. 5.5. Resistance change modeling
  • 6. Future challenges. 6.1. Electromigration modeling. 6.2. EDA tool development. 6.3. Physics of electromigration. 6.4. Electromigration testing. 6.5. New failure mechanism for interconnects. 6.6. Alternative interconnect structure. 6.7. Alternative interconnect system.

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