A high-performance sub-half micron CMOS technology for fast SRAMs

An advanced high-performance sub-half-micron technology for fast CMOS SRAMs (static RAMs) has been developed. Features of this thin-well process include: an aggressive interwell isolation module, framed-mask poly-buffered LOCOS isolation (FMPBL), a 125-AA gate oxide, dual n/sup +//p/sup +/ implanted polysilicon gates, titanium salicide, two levels of polysilicon, TiN metallization barriers, a poly plug option, and up to three layers of metallization. An interwell isolation process allows scaling of the n/sup +/ to p/sup +/ space to less than 2 mu m. Active transistor design is optimized to reduce the polysilicon gate bird´s beak and LDD (lightly doped drain) underdiffusion. Discrete transistor lifetimes for hot carrier degradation are in excess of 10 years of 3.3-V operation. A 16 K*4 SRAM displays no parametric shifts after HCl stressing for 1000 h at 7 V and 0 degrees C. Ring oscillator delay times of 85 ps at 3.3-V and 65 ps at 5-V supply are obtained.<>