| Popis: |
The effectiveness of two methods of optical proximity correction based on feature biasing and subresolution assisting features is compared by simulation and experiments. Parameters examined are overlapping focus- exposure windows for dense lines, semi-isolated and isolated lines, and line-end shortening. Binary and phase-shifting masks containing test and real IC design features are proximity corrected either by commercial software (in the case of feature biasing) or by manual correction using optimized size and placement of assisting features. The results indicate that, while both methods are effective in reducing optical proximity effects, the feature-assisted method is more advantageous in many cases. |
