论文信息 - On process-aware 1-D standard cell design

On process-aware 1-D standard cell design

When VLSI technology scales down to sub-40nm process node, systematic variation introduced by the lithography is a persistent challenge to the manufacturability. The limitation of the resolution enhancement technologies (RETs) forces people to adopt a regular cell design methodology. In this paper, targeted on 1-D cell design, we use simulation data to analyze the relationship between the line-end gap distribution and printability. Based on the gap distribution preferences, an optimal algorithm is provided to efficiently extend the line ends and insert dummies, which will significantly improve the gap distribution and help printability. Experimental results on 45nm and 32nm processes show that significant improvement can be obtained on edge placement error (EPE).

Martin D. F. Wong | Hongbo Zhang | Kai-Yuan Chao

[1] Andrzej J. Strojwas,et al. Design methodology for IC manufacturability based on regular logic-bricks , 2005, Proceedings. 42nd Design Automation Conference, 2005..

[2] Brian Taylor,et al. Exact Combinatorial Optimization Methods for Physical Design of Regular Logic Bricks , 2007, 2007 44th ACM/IEEE Design Automation Conference.

[3] Michael C. Smayling,et al. Interference assisted lithography for patterning of 1D gridded design , 2009, Advanced Lithography.

[4] Michael C. Smayling,et al. APF pitch-halving for 22nm logic cells using gridded design rules , 2008, SPIE Advanced Lithography.

[5] Ibrahim M. Elfadel,et al. A capacitance solver for incremental variation-aware extraction , 2008, 2008 IEEE/ACM International Conference on Computer-Aided Design.

[6] Steve Prins,et al. Exploration of complex metal 2D design rules using inverse lithography , 2009, Advanced Lithography.

[7] Lars W. Liebmann,et al. Simplify to survive: prescriptive layouts ensure profitable scaling to 32nm and beyond , 2009, Advanced Lithography.