A GPU-enabled Level Set Method for Mask Optimization
Ziyang Yu, Guojin Chen, Yuzhe Ma and Bei Yu
Department of Computer Science and Engineering The Chinese University of Hong Kong
ABSTRACT
As the feature size of advanced integrated circuits keeps shrinking, resolution enhancement technique (RET) is utilized to improve the printability in the lithography process. Optical proximity correction (OPC) is one of the most widely used RETs aiming at compensating the mask to generate a more precise wafer image. In this paper, we put forward a level-set based OPC with high mask optimization quality and fast convergence. In order to suppress the disturbance of the condition fluctuation in lithography process, we propose a new process windowaware cost function. Then, a novel momentum-based evolution technique is adopted, which demonstrates substantial improvement. Moreover, graphics processing unit (GPU) is leveraged for accelerating the proposed algorithm. Experimental results on ICCAD 2013 benchmarks show that our algorithm outperforms all previous OPC algorithms in terms of both solution quality and runtime overhead.
