Title :
On mask layout partitioning for electron projection lithography
Author :
Tian, Ruiqi ; Yu, Ronggang ; Tang, Xiaoping ; Wong, D.F.
Author_Institution :
Motorola Inc., Austin, TX, USA
Abstract :
Electron projection lithography (EPL) is a leading candidate for next generation lithography (NGL) in VLSI production. The membrane mask used in EPL is divided into sub-fields by struts for structural support. A layout must be partitioned into these subfields on mask and then stitched back together by the EPL tool on wafer. To minimize possible stitching errors, partitioning of a mask layout should minimize cuts of layout features in the overlapping area between two adjacent sub-fields. This paper presents the first formulation of the mask layout partitioning problem for EPL as a graph problem. The graph formulation is optimally solved with a shortest path approach. Two other techniques are also presented to speed up computation. Experimental runs on data from a real industry design show excellent results.
Keywords :
VLSI; circuit layout CAD; divide and conquer methods; dynamic programming; electron beam lithography; error analysis; integrated circuit layout; logic partitioning; masks; semiconductor process modelling; EPL tool on-wafer stitching; NGL; VLSI production; computation speed; divide and conquer; dynamic programming; electron projection lithography; layout feature cuts; layout partitioning; mask layout partitioning; mask layout partitioning problem; membrane mask sub-field division; next generation lithography; optimally solved graph formulation; overlapping area; shortest path approach; stitching error minimization; structural support struts; Biomembranes; Electrons; Light scattering; Lithography; Page description languages; Resists; Shape; Throughput; Ultraviolet sources; Very large scale integration;
Conference_Titel :
Computer Aided Design, 2002. ICCAD 2002. IEEE/ACM International Conference on
Print_ISBN :
0-7803-7607-2
DOI :
10.1109/ICCAD.2002.1167581
