Accurate Litho Model Tuning Using Design-Based Defect Binning

Author

Vasek, Jim ; Svidenko, Vicky ; Nehmadi, Youval ; Shimshi, Rinat

Author_Institution

Freescale Semicond. Inc., Austin, TX

Volume

21

Issue

3

fYear

2008

Firstpage

316

Lastpage

321

Abstract

Advanced lithography optical proximity correction (OPC) techniques rely on accurately tuned process models. Although through-process OPC models are being used for critical layers at the 65-nm node, typically an initial model is created at a single optimized process setting. Such ldquobest conditionrdquo models often produce process-window limiting structures that can impact yield. A new methodology is presented for identifying misprinted structures during the qualification of a new photomask and optimizing the process model based on those structures. Instead of the traditional approach which employs repeater analysis, the new technique bins the process-limiting structures according to their design. This method enables efficient data reduction and identification of a new feature set for lithography process model tuning.

Keywords

lithography; masks; proximity effect (lithography); accurate litho model tuning; advanced lithography optical proximity correction techniques; data identification; data reduction; design-based defect binning; lithography process; misprinted structures; photomask; repeater analysis; Inspection; Iron; Lithography; Optical design; Optical design techniques; Optical tuning; Optimization methods; Qualifications; Repeaters; Semiconductor device modeling; Defect inspection; RET; design based binning; lithography; model tuning; optical proximity correction (OPC);

fLanguage

English

Journal_Title

Semiconductor Manufacturing, IEEE Transactions on

Publisher

ieee

ISSN

0894-6507

Type

jour

DOI

10.1109/TSM.2008.2001204

Filename

4589048