Title :
A novel 0.79 /spl mu/m/sup 2/ SRAM cell by KrF lithography and high performance 90 nm CMOS technology for ultra high speed SRAM
Author :
Soon-Moon Jung ; Hyungshin Kwon ; Jaehun Jeong ; Wonseok Cho ; Sungbong Kim ; Hoon Lim ; Kwangok Koh ; Youngseop Rah ; Jaekyun Park ; Heesoo Kang ; Gyuho Lyu ; Joonbum Park ; Chulsoon Chang ; Youngchul Jang ; Donggun Park ; Kinam Kim ; Moon Yong Lee
Author_Institution :
Adv. Technol. Dev. Team, Samsung Electron. Co. Ltd., South Korea
Abstract :
The smallest SRAM cell, 0.79 /spl mu/m/sup 2/, was realized by a revolutionary cell layout, fine tuned OPC technique to overcome the 248 nm KrF lithography limitation, instead of using 193 nm ArF lithography. Sub-100 nm CMOS technology was indispensable to achieve the cell size as well as the performance. The high performance transistors were made with 80 nm gate length including 15 /spl Aring/ nitrided gate oxide layer, indium channel and halo implantation processes. The novel cell exhibits excellent neutron SER immunity, compared with ones of the SRAM cell by previous generation technologies.
Keywords :
CMOS memory circuits; SRAM chips; high-speed integrated circuits; integrated circuit layout; ion implantation; neutron effects; proximity effect (lithography); ultraviolet lithography; 15 A; 248 nm; 80 nm; 80 nm gate length; 90 nm; CMOS SRAM cell; In channel; KrF lithography; cell layout; cell size; fine tuned OPC technique; halo implantation processes; high performance 90 nm CMOS technology; high performance transistors; neutron SER immunity; nitrided gate oxide layer; ultra high speed SRAM; CMOS technology; Flash memory; Indium; Lithography; Moon; Neutrons; Random access memory; Research and development; Resists; Space technology;
Conference_Titel :
Electron Devices Meeting, 2002. IEDM '02. International
Conference_Location :
San Francisco, CA, USA
Print_ISBN :
0-7803-7462-2
DOI :
10.1109/IEDM.2002.1175868
