21 March 2007 Optimizing gate layer OPC correction and SRAF placement for maximum design manufacturability
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Sub-resolution assist features (SRAFs) or scatter bars (SBs) have steadily proliferated through IC manufacturer data preparation flows as k1 is pushed lower with each technology node. The use of this technology is quite common for gate layer at 130 nm and below, with increasingly complex geometric rules being utilized to govern the placement of SBs in proximity to target layer features. Recently, model based approaches for placement of SBs has arisen. In this work, the variety of rule-based and model-based SB options are explored for the gate layer by using new characterization and optimization functions available in the latest generation of correction and OPC verification tools. These include the ability to quantify across chip CD control with statistics on a per gate basis. The analysis includes the effects of defocus, exposure, and misalignment, and it is shown that significant improvements to CD control through the full manufacturing variability window can be realized.
© (2007) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
Travis Brist, Travis Brist, Le Hong, Le Hong, Ayman Yehia, Ayman Yehia, Tamer Tawfik, Tamer Tawfik, Shumay Shang, Shumay Shang, Kyohei Sakajiri, Kyohei Sakajiri, John L. Sturtevant, John L. Sturtevant, } "Optimizing gate layer OPC correction and SRAF placement for maximum design manufacturability", Proc. SPIE 6521, Design for Manufacturability through Design-Process Integration, 65211L (21 March 2007); doi: 10.1117/12.712748; https://doi.org/10.1117/12.712748


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