Title :
Advanced gate etching for accurate CD control for 130-nm node ASIC manufacturing
Author :
Nagase, Masatoshi ; Tokashiki, Ken
Author_Institution :
Dry Etch Process Group, NEC Electron. Corp., Kanagawa, Japan
Abstract :
This paper presents a methodology for gate trim etching to obtain accurate critical dimension (CD) control for 130-nm node ASIC manufacturing. In order to reduce mask-to-mask CD variation in gate trim etching, correlation between mask layout and amount of gate trim is investigated. It is found that trim rate strongly depends on gate peripheral length. A novel feed-forward technology to reduce both wafer-to-wafer variation and mask-to-mask variation is developed with the knowledge of peripheral length effect. This technology can also reduce CD variation within die and the CD bias between dense and isolated lines is compensated by optical proximity correction rules. This novel feed-forward technology is one solution for improving every gate CD variation: within die, within wafer, wafer-to-wafer, and mask-to-mask.
Keywords :
application specific integrated circuits; etching; feedforward; integrated circuit manufacture; masks; proximity effect (lithography); wafer-scale integration; 130 nm; critical dimension control; feedforward technology; gate etching; gate peripheral length; gate trim etching; mask layout; mask-mask critical dimension variation; node ASIC manufacturing; optical proximity correction rules; peripheral length effect; wafer-wafer variation; Application specific integrated circuits; Etching; Feedforward systems; High speed optical techniques; Isolation technology; Lithography; Plasma applications; Proximity effect; Pulp manufacturing; Resists; CD; Critical dimension; OPC; feed-forward technology; gate etch; gate trim; optical proximity correction; peripheral length;
Journal_Title :
Semiconductor Manufacturing, IEEE Transactions on
DOI :
10.1109/TSM.2004.831932
