Electromigration in Metals

Fundamentals to Nano-Interconnects

Paul S. Ho (University of Texas, Austin), Chao-Kun Hu, Martin Gall , Valeriy Sukharev

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English

Cambridge University Press
12 May 2022

Electricity, electromagnetism & magnetism; Nanotechnology; Materials science; Electrical engineering; Semi-conductors & super-conductors

Learn to assess electromigration reliability and design more resilient chips in this comprehensive and practical resource. Beginning with fundamental physics and building to advanced methodologies, this book enables the reader to develop highly reliable on-chip wiring stacks and power grids. Through a detailed review on the role of microstructure, interfaces and processing on electromigration reliability, as well as characterisation, testing and analysis, the book follows the development of on-chip interconnects from microscale to nanoscale. Practical modeling methodologies for statistical analysis, from simple 1D approximation to complex 3D description, can be used for step-by-step development of reliable on-chip wiring stacks and industrial-grade power/ground grids. This is an ideal resource for materials scientists and reliability and chip design engineers.

By: Paul S. Ho (University of Texas Austin), Chao-Kun Hu, Martin Gall, Valeriy Sukharev
Imprint: Cambridge University Press
Country of Publication: United Kingdom
Dimensions: Height: 250mm, Width: 174mm, Spine: 24mm
Weight: 980g
ISBN: 9781107032385
ISBN 10: 1107032385
Pages: 430
Publication Date: 12 May 2022
Audience: College/higher education , Primary
Format: Hardback
Publisher's Status: Active

1. Introduction to electromigration; 2. Fundamentals of electromigration; 3. Thermal stress characteristics and stress induced void formation in aluminium and copper interconnects; 4. Stress evolution and damage formation in confined metal lines under electric stressing; 5. Electromigration in Cu interconnect structures; 6. Scaling effects on microstructure and resistivity of Cu and Co nanointerconnects; Analysis of electromigration induced stress evolution and voiding in Cu damascene lines with microstructure; 8. Massive scale statistical studies for electromigration; 9. Assessment of electromigration damage in large on-chip power grids. Index.

Paul Ho is Professor Emeritus in the Department of Mechanical Engineering and the Texas Materials Institute at the University of Texas at Austin. He has received research awards from the Electrochemical Society, IEEE, IITC and Semiconductor Industry Association, among others. Chao-Kun Hu has recently retired as a Research Staff Member in the Reliability Department at the T.J. Watson Research Center of IBM. He received IBM Corporate awards, IEEE Cledo Brunetti award, EDS Recognition and IITC Best Paper awards, and Invention of the Year NY Intellectual Property Law Association. Martin Gall is the director of the U.S. Operations Reliability Engineering Department at GLOBALFOUNDRIES Inc. He is an IEEE TDMR editor and the recipient of an IEEE IITC Best Paper and SRC Mentor of the Year Award. Valeriy Sukharev is principal engineer for Calibre Design Solutions, Siemens EDA, Siemens Digital Industries Software. He was a recipient of the 2014 and 2018 Mahboob Khan Outstanding Industry Liaison Award (SRC) and the Best Paper awards from ICCAD 2016, 2019 and 2020.