Multi-objective adaptive source optimization for full chip

Source optimization (SO) is an extensively used resolution enhancement technique in optical lithography. To improve computational efficiency, compressive sensing (CS) theory was applied to SO for clip-level applications in previous works. We propose, for the first time to our knowledge, a multi-objective adaptive SO (adaptive-MOSO) with CS for full chip. The fast optimization of a pixel illumination source pattern is achieved, and the imaging fidelity of each clip is guaranteed simultaneously at full chip. Fast CS with contour sampling is applied to accelerate the SO procedure by sampling all layout patterns. Novel cost function with adaptive weight distribution for every single clip is established to guarantee the lithography imaging fidelity for full chip. The simulation results prove that the adaptive-MOSO method improves the efficiency of SO and the lithography performance for large-scale chips.