A 56-nm CMOS 99- }^ 8-Gb Multi-Level NAND Flash Memory With 10-MB/s Program Throughput

A 56-nm CMOS 99- }^ 8-Gb Multi-Level NAND Flash Memory With 10-MB/s Program Throughput

A single 3.3-V only, 8-Gb NAND flash memory with the smallest chip to date, 98.8 mm 2 , has been successfully developed. This is the world's first integrated semiconductor chip fabricated with 56-nm CMOS technologies. The effective cell size including the select transistors is 0.0075 mum 2 per...

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Veröffentlicht in:IEEE journal of solid-state circuits 2007-01, Vol.42 (1), p.219-232
Hauptverfasser: Takeuchi, K., Kameda, Y., Fujimura, S., Otake, H., Hosono, K., Shiga, H., Watanabe, Y., Futatsuyama, T., Shindo, Y., Kojima, M., Iwai, M., Shirakawa, M., Ichige, M., Hatakeyama, K., Tanaka, S., Kamei, T., Jia-Yi Fu, Cernea, A., Yan Li, Higashitani, M., Hemink, G., Sato, S., Oowada, K., Shih-Chung Lee, Hayashida, N., Jun Wan, Lutze, J., Shouchang Tsao, Mofidi, M., Sakurai, K., Tokiwa, N., Waki, H., Nozawa, Y., Kanazawa, K., Ohshima, S.
Format: Artikel
Sprache:eng
Schlagworte:
Circuits
CMOS technology
Costs
Decoding
Digital audio players
Digital cameras
Flash memory
high-speed programming
multi-level cell
NAND flash memory
Noise cancellation
Throughput
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Beschreibung
Zusammenfassung:A single 3.3-V only, 8-Gb NAND flash memory with the smallest chip to date, 98.8 mm 2 , has been successfully developed. This is the world's first integrated semiconductor chip fabricated with 56-nm CMOS technologies. The effective cell size including the select transistors is 0.0075 mum 2 per bit, which is the smallest ever reported. To decrease the chip size, a very efficient floor plan with one-sided row decoder, one-sided page buffer, and one-sided pad is introduced. As a result, an excellent 70% cell area efficiency is realized. The program throughput is drastically improved to twice as large as previously reported and comparable to binary memories. The best ever 10-MB/s programming is realized by increasing the page size from 4kB to 8kB. In addition, noise cancellation circuits and the dual VDD-line scheme realize both a small die size and a fast programming. An external page copy achieves a fast 93-ms block copy, efficiently using a 1-MB block size
ISSN:0018-9200
1558-173X
DOI:10.1109/JSSC.2006.888299