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The 22nm node will be patterned with very challenging Resolution Enhancement Techniques (RETs) suchas double exposure or double patterning. Even with those extreme RETs, the k1 factor is expected to be less than 0.3. There is some concern in the industry that traditional edge-based simulate-then-move Optical Proximity Correction (OPC) may not be up to the challenges expected at the 22nm node. Previous work presented the advantages of a so-called inverse OPC approach when coupled with extreme RETs or illumination schemes. The smooth mask contours resulting from inverse corrections were shown not to be limited by topological identity, feedback locality, or fragment conformity. In short, inverse OPC can produce practically unconstrained and often non-intuitive mask shapes. The authors will expand this comparison between traditional and inverse OPC to include likely 22nm RETs such as double dipole lithography and double patterning, comparing dimensional control through process window for each OPC method. The impact of mask simplification of the inverse OPC shapes into shapeswhich can be reliably manufactured will also be explored.