Title :
A CMOS Technology for a Sub-5-ns 3.3-V LVTTL 1-Mbit SRAM
Author :
Hook, T.B. ; Piccirillo, J. ; Watson, K. ; Nowak, E.
Author_Institution :
IBM Microelectronics Division, Essex Junction, VT 05452 USA
Abstract :
This paper describes a CMOS technology designed for static RAMs and microprocessors operating at 3.3 V. The technology features dual-work-function NFETs and PFETs that achieve 0.22 and 0.18 ¿m minimum channel lengths, respectively. It also includes shallow-trench isolation, nitrided oxide for reliability, self-aligned titanium silicide diffusions and polysilicon, a damascene tungsten local interconnect, up to five levels of fully planarized metallization, and sub-half-micron feature sizes. Access time of less than 5 ns is typical for a 1-Mbit SRAM fabricated in this technology, and 150 MHz clock rate is achieved for a microprocessor.
Keywords :
Annealing; CMOS technology; Hot carriers; Isolation technology; Microprocessors; Oxidation; Random access memory; Threshold voltage; Titanium; Tungsten;
Conference_Titel :
Solid State Device Research Conference, 1995. ESSDERC '95. Proceedings of the 25th European
Conference_Location :
The Hague, The Netherlands
