Title :
Efficient full-chip yield analysis methodology for OPC-corrected VLSI designs
Author :
Axelrad, V. ; Cobb, N. ; Brien, M.O. ; Boksha, V. ; Do, T. ; Donnelly, T. ; Granik, Y. ; Sahouria, E. ; Balasinski, A.
Author_Institution :
SEQUOIA Design Syst., Woodside, CA, USA
Abstract :
Degradation of lithographic pattern fidelity is a major cause of yield loss in VLSl manufacturing. A general methodology for full-chip analysis and improvement of yield loss due to lithographic effects is proposed The approach is based on: a) extraction of pattern fidelity statistics using a full-chip layout engine, b) full-chip optical proximity correction (OPC) to improve pattern reproduction, and c) estimation of yield losses due to line variability, using transistor sensitivity to pattern registration obtained from physical transistor modeling. As a result, yield estimates related to either pattern reproduction fidelity or transistor parametric data variations (such as leakage or drive current) are generated. The method is efficient and well suited for application to modern VLSI designs of memory or logic devices
Keywords :
VLSI; integrated circuit layout; integrated circuit modelling; integrated circuit yield; proximity effect (lithography); OPC-corrected VLSI designs; VLSl manufacturing; drive current; full-chip layout engine; full-chip yield analysis methodology; line variability; lithographic pattern fidelity; optical proximity correction; pattern fidelity statistics; pattern registration; pattern reproduction; pattern reproduction fidelity; physical transistor modeling; transistor parametric data variations; transistor sensitivity; yield loss; Degradation; Engines; Manufacturing; Nonlinear optics; Optical losses; Optical sensors; Parametric statistics; Pattern analysis; Statistical analysis; Yield estimation;
Conference_Titel :
Quality Electronic Design, 2000. ISQED 2000. Proceedings. IEEE 2000 First International Symposium on
Conference_Location :
San Jose, CA
Print_ISBN :
0-7695-0525-2
DOI :
10.1109/ISQED.2000.838922
