Title :
A Fully Performance Compatible 45 nm 4-Gigabit Three Dimensional Double-Stacked Multi-Level NAND Flash Memory With Shared Bit-Line Structure
Author :
Park, Ki-Tae ; Kang, Myounggon ; Hwang, Soonwook ; Kim, Doogon ; Cho, Hoosung ; Jeong, Youngwook ; Seo, Yong-Il ; Jang, Jaehoon ; Kim, Han-Soo ; Lee, Yeong-Taek ; Jung, Soon-Moon ; Kim, Changhyun
Author_Institution :
Semicond. R&D Center, Samsung Electron. Co., Ltd., Hwasung
Abstract :
A 3-dimensional double stacked 4 gigabit multilevel cell NAND flash memory device with shared bitline structure have successfully developed. The device is fabricated by 45 nm floating-gate CMOS and single-crystal Si layer stacking technologies. To support fully compatible device performance and characteristics with conventional planar device, shared bitline architecture including Si layer-dedicated decoder and Si layer-compensated control schemes are also developed. By using the architecture and the design techniques, a memory cell size of 0.0021 mum2/bit per unit feature area which is smallest cell size and 2.5 MB/s program throughput with 2 kB page size which is almost equivalent performance compared to conventional planar device are realized.
Keywords :
CMOS integrated circuits; NAND circuits; flash memories; silicon; Si; bit rate 25 Mbit/s; conventional planar device; floating-gate CMOS; layer-compensated control schemes; layer-dedicated decoder; shared bitline structure; single-crystal layer stacking technologies; size 45 nm; three dimensional double-stacked multilevel NAND flash memory; CMOS technology; Costs; Decoding; Lithography; Nonvolatile memory; Stacking; Thin film devices; Throughput; Ultraviolet sources; Uncertainty; 3-dimensional device; Layer-compensated control; NAND flash; Si layer-dedicated decoder; shared bitline architecture; single-crystal Si layer stacking;
Journal_Title :
Solid-State Circuits, IEEE Journal of
DOI :
10.1109/JSSC.2008.2006437
