DocumentCode
1868955
Title
Microelectronic reliability predictions derived from component defect densities
Author
Stevenson, John L. ; Nachlas, Joel A.
Author_Institution
INTELSAT, Washington, DC, USA
fYear
1990
fDate
23-25 Jan 1990
Firstpage
366
Lastpage
371
Abstract
A physics-of-failure approach to reliability prediction for integrated circuits is discussed. The analysis described is based upon the expectation that no integrated circuit can ever be free of imperfections and the assumption that both microscopic (point) defects and macroscopic flaws play influential roles in determining IC reliability. It is demonstrated that the microscopic defects can be directly implicated in gradual degradation over time via analyses related to those used in modeling a variety of solid-state phenomena
Keywords
failure analysis; integrated circuits; reliability; component defect densities; failure analysis; gradual degradation; integrated circuits; macroscopic flaws; microelectronics; microscopic defects; modeling; physics-of-failure approach; reliability predictions; Circuit analysis; Conducting materials; Contamination; Integrated circuit reliability; Kinetic theory; Manufacturing; Microelectronics; Microscopy; Resists; Semiconductor materials;
fLanguage
English
Publisher
ieee
Conference_Titel
Reliability and Maintainability Symposium, 1990. Proceedings., Annual
Conference_Location
Los Angeles, CA
Type
conf
DOI
10.1109/ARMS.1990.67985
Filename
67985
Link To Document