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- Title
Using genetic algorithm to optimize the dummy filling problem of the flash lamp anneal process in semiconductor manufacturing.
- Authors
Lin, S.; Liu, S.; Chen, F.
- Abstract
In deep sub-micron era, many semiconductor fabrication process variations highly relate to uniformity of IC layout design. Chemical-polishing process and Flash Lamp Anneal (FLA) are two of the crucial processes aiming to increase uniformity of IC. Dummy filling is an efficient and effective Design for Manufacturability method for increasing layout uniformity by filling non-functional dummy shapes onto unoccupied area and thus reducing pattern-induced process variation. However, none are design for the thermal effects of FLA process. FLA process annealed the wafer in high temperature (1250°C) in a few milliseconds. Wafer surface emissivity determines the amount of heat absorption during FLA process. The temperature variation of FLA process induced by surface emissivity variation of IC layout results in shifts of transistors' electrical parameters. This paper proposed to use genetic algorithm to minimize the emissivity variation of IC layout by filling a series of prescribed dummy patterns with various emissivity. The experimental results from twenty test cases show that 35% emissivity variation reductions can be achieved and moreover the observed temperature deviation during FLA is under 2.8%.
- Subjects
THERMAL analysis; GENETIC algorithms; SEMICONDUCTORS; HEAT radiation &; absorption; EMISSIVITY
- Publication
Journal of Intelligent Manufacturing, 2012, Vol 23, Issue 3, p775
- ISSN
0956-5515
- Publication type
Article
- DOI
10.1007/s10845-010-0429-9