Title :
Simulation of Georgia Tech´s CMOS baseline using TSUPREM-4 and MEDICI
Author :
Sutton, Akil K. ; Zhou, Zhiping
Author_Institution :
Microelectron. Res. Center, Georgia Inst. of Technol., Atlanta, GA, USA
fDate :
6/23/1905 12:00:00 AM
Abstract :
The Microelectronics Research Center of Georgia Tech has established silicon CMOS processing baselines as an important part of its research platform that provides supports to research communities around the world for research into numerous devices and fabrication techniques. Successful process runs include 1 μm double polysilicon and double metal CMOS, 2 μm double polysilicon and double metal CMOS, 2 μm single polysilicon and single metal CMOS, and other CMOS based devices. This paper seeks to outline the simulation model for CMOS and NMOS designs. It includes a process simulator, TSUPREM-4, which was utilized to represent the process run parameters for the devices and a device simulator, MEDICI, which was employed to extract electrical characteristics. The simulation model has been utilized to observe general relationships between several processing parameters, such as the P+ and N+ doping concentrations as well as ion implantation energies and dosages, and corresponding threshold voltage variations
Keywords :
CMOS integrated circuits; circuit simulation; doping profiles; electronic engineering education; integrated circuit modelling; ion implantation; semiconductor process modelling; 1 micron; 2 micron; CMOS based devices; CMOS designs; Georgia Tech; Georgia Tech CMOS baseline process; MEDICI; MEDICI device simulator; Microelectronics Research Center; N+ doping concentrations; NMOS designs; P+ doping concentrations; Si; TSUPREM-4; TSUPREM-4 process simulator; double polysilicon/double metal CMOS; electrical characteristics; fabrication techniques; ion implantation dosages; ion implantation energies; process run parameters; process runs; processing parameters; research platform; silicon CMOS processing baselines; simulation; simulation model; single polysilicon/single metal CMOS; threshold voltage variations; CMOS process; CMOS technology; Electric variables; Fabrication; MOS devices; Medical simulation; Microelectronics; Semiconductor device modeling; Semiconductor process modeling; Silicon;
Conference_Titel :
University/Government/Industry Microelectronics Symposium, 2001. Proceedings of the Fourteenth Biennial
Conference_Location :
Richmond, VA
Print_ISBN :
0-7803-6691-3
DOI :
10.1109/UGIM.2001.960325
