Masanobu Shirakawa

Network

Latest external collaboration on country level. Dive into details by clicking on the dots.

Explore More

Hotspot

Dive into the research topics where Masanobu Shirakawa is active.

Explore More

Publication

Featured researches published by Masanobu Shirakawa.

international solid state circuits conference | 2007

Ken Takeuchi; Yasushi Kameda; Susumu Fujimura; Hiroyuki Otake; Koji Hosono; Hitoshi Shiga; Yoshihisa Watanabe; Takuya Futatsuyama; Yoshihiko Shindo; Masatsugu Kojima; Makoto Iwai; Masanobu Shirakawa; Masayuki Ichige; Kazuo Hatakeyama; Shinichi Tanaka; Teruhiko Kamei; Jia-Yi Fu; Adi Cernea; Yan Li; Masaaki Higashitani; Gertjan Hemink; Shinji Sato; Ken Oowada; Shih-Chung Lee; Naoki Hayashida; Jun Wan; Jeffrey W. Lutze; Shouchang Tsao; Mehrdad Mofidi; Kiyofumi Sakurai

A single 3.3-V only, 8-Gb NAND flash memory with the smallest chip to date, 98.8 mm2, has been successfully developed. This is the worlds first integrated semiconductor chip fabricated with 56-nm CMOS technologies. The effective cell size including the select transistors is 0.0075 mum2 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

international solid-state circuits conference | 2006

Ken Takeuchi; Yasushi Kameda; Susumu Fujimura; Hiroyuki Otake; Koji Hosono; Hitoshi Shiga; Y. Watanabe; Takuya Futatsuyama; Yoshihiko Shindo; Masatsugu Kojima; Makoto Iwai; Masanobu Shirakawa; Masayuki Ichige; Kazuo Hatakeyama; Sumio Tanaka; Teruhiko Kamei; Jia-Yi Fu; Adi Cernea; Yan Li; Masaaki Higashitani; Gertjan Hemink; Shinji Sato; Ken Oowada; Shih-Chung Lee; N. Hayashida; Jun Wan; Jeffrey W. Lutze; Shouchang Tsao; Mehrdad Mofidi; Kiyofumi Sakurai

Fabricated in 56nm CMOS technology, an 8Gb multi-level NAND Flash memory occupies 98.8mm2, with a memory cell size of 0.0075mum/b. The 10MB/s programming and 93ms block copy are also realized by introducing 8kB page, noise-cancellation circuits, external page copy and the dual VDD scheme enabling efficient use of 1MB blocks

international solid-state circuits conference | 2008

Kazushige Kanda; Masaru Koyanagi; Toshio Yamamura; Koji Hosono; Masahiro Yoshihara; Toru Miwa; Yosuke Kato; Alex Mak; Siu Lung Chan; Frank Tsai; Raul Adrian Cernea; Binh Le; Eiichi Makino; Takashi Taira; Hiroyuki Otake; Norifumi Kajimura; Susumu Fujimura; Yoshiaki Takeuchi; Mikihiko Itoh; Masanobu Shirakawa; Dai Nakamura; Yuya Suzuki; Yuki Okukawa; Masatsugu Kojima; Kazuhide Yoneya; Takamichi Arizono; Toshiki Hisada; Shinji Miyamoto; Mitsuhiro Noguchi; Toshitake Yaegashi

NAND flash memory use in digital still cameras and cellular phones is driving demand for larger-capacity storage. Moreover, NAND flash has the potential to replace HDDs. To achieve larger capacity while maintaining low cost per bit, technical improvements in feature size and area reduction are essential. To meet the stringent requirements, we develop a 16 Gb 4-level NAND flash memory in 43 nm CMOS technology. In 43 nm generation, gate-induced drain leakage (GIDL) influences the electrical field on both sides of NAND strings. GIDL causes severe program disturb problems to NAND flash memories. To avoid GIDL, two dummy wordlines (WL) on both sides of NAND strings are added. This is effective because the dummy gate voltages, are selected independent of the program inhibit voltage.

Archive | 2013