Title :
Fast lithographic mask optimization considering process variation
Author :
Yu-Hsuan Su ; Yu-Chen Huang ; Liang-Chun Tsai ; Yao-Wen Chang ; Banerjee, Sean
Author_Institution :
Grad. Inst. of Electron. Eng., Nat. Taiwan Univ., Taipei, Taiwan
Abstract :
As nanometer technology advances, conventional OPC (Optical Proximity Correction) that minimizes the EPE (Edge Placement Error) at the nominal corner alone often leads to poor process window. To improve the mask printability across various process corners, process-window OPC optimizes EPE for multiple process corners, but often suffers long runtime, due to repeated lithographic simulations. This paper presents an efficient process-variation-aware mask optimization framework, namely PVOPC (Process-Variation OPC), to simultaneously minimize EPE and PV (Process-Variation) band with fast convergence. The PVOPC framework includes EPE-sensitivity-driven dynamic fragmentation, process-variation-aware EPE modeling, and post correction with three new EPE-converging techniques and a systematic sub-resolution assisted feature insertion algorithm. Experimental results show that our approach efficiently achieves high-quality EPE and PV band results.
Keywords :
masks; nanoelectronics; nanolithography; optimisation; EPE-converging techniques; EPE-sensitivity-driven dynamic fragmentation; PVOPC; edge placement error; feature insertion algorithm; lithographic mask optimization; lithographic simulations; mask printability; nanometer technology; optical proximity correction; process corners; process variation; process-variation OPC; process-variation-aware EPE modeling; process-variation-aware mask optimization; process-window OPC; Convergence; Image segmentation; Layout; Lithography; Optimization; Process control; Systematics;
Conference_Titel :
Computer-Aided Design (ICCAD), 2014 IEEE/ACM International Conference on
Conference_Location :
San Jose, CA
DOI :
10.1109/ICCAD.2014.7001357
