30.4 A 1Tb 3b/Cell 3D-Flash Memory in a 170+ Word-Line-Layer Technology

This work demonstrates a novel 1Tb 3D Flash memory chip that has an area efficiency of 10.4Gb/mm2 in a 3b/cell technology. Using a circuit under array (CUA) design technique and over 170 word-line (WL) layers, the chip achieves 33% higher bit density than prior 3b/cell work [1], and better density than in 4b/cell technology [3]. This paper discusses the challenges advanced 3D Flash memories face: using over 100 WL layers results in large parasitic loads and decreases read/program speed, and its complicated operation increases test costs. On the other hand, as high bandwidth is also required, this chip supports a 2.0Gbps IO transfer rate, while maintaining signal integrity. This work introduces four new key technologies to address these difficulties. 1) Asynchronous independent plane read (AIPR), with a 4-plane architecture to improve system-level performance. 2) Enhanced sensing that enables faster read time $(t_{R})$. 3) IO-DCC (duty cycle correction) training for high-speed DDR operation. 4) A scan chain to improve test coverage and cost effectiveness.

Osamu Kobayashi | Koji Hosono | Ryo Fukuda | Ryoichi Tachibana | Hiroshi Sugawara | Kosuke Yanagidaira | Toshifumi Hashimoto | Junji Musha | Takatoshi Minamoto | Teruo Takagiwa | Masatsugu Kojima | Tomoharu Hashiguchi | Jumpei Sato | Naoya Tokiwa | Tomofumi Fujimura | Masakazu Ehama | Keiji Tsunoda | Siddhesh Darne | Mitsuyuki Watanabe | Toru Miwa | Naoki Ookuma | Srinivas Rajendra | Masahiro Kano | Takeshi Hioka | Katsuaki Sakurai | Yasuhiro Suematsu | Shintaro Hayashi | Mitsuaki Honma | Kazuhide Yoneya | Kazuko Inuzuka | Ryuji Yamashita | Hiroyuki Mizukoshi | Takuyo Kodama | Kazumasa Yamamoto | Akio Sugahara | Jiwang Lee | Tsutomu Higuchi | Koji Kato | Mitsuhiro Abe | Yuki Shimizu | Tetsuaki Utsumi | Junya Matsuno | Kei Shiraishi | Kensuke Yamamoto | Takahiro Sugimoto | Mizuki Kaneko | Hiroki Date | Itaru Yamaguchi | Juan Lee | Venky Ramachandra | Tianyu Tang | Jason Li | Yuki Kuniyoshi | Kei Akiyama | Hirotoshi Mori | Akira Arimizu | Yoshito Katano | Hiroshi Maejima | Masahiro Yoshihara | H. Sugawara | Kei Shiraishi | J. Matsuno | R. Tachibana | Tianyu Tang | M. Kaneko | K. Hosono | Jiwang Lee | Kazumasa Yamamoto | O. Kobayashi | Toru Miwa | T. Hioka | Ryuji Yamashita | S. Darne | K. Yanagidaira | I. Yamaguchi | H. Mori | Tomofumi Fujimura | Masahiro Yoshihara | T. Hashimoto | Hiroki Date | Junji Musha | Takatoshi Minamoto | Katsuaki Sakurai | Teruo Takagiwa | Takahiro Sugimoto | M. Kojima | Tomoharu Hashiguchi | R. Fukuda | Jumpei Sato | Juan Lee | Jason Li | Mitsuyuki Watanabe | Naoki Ookuma | Venky Ramachandra | Srinivas Rajendra | N. Tokiwa | H. Maejima | Mitsuhiro Abe | Yasuhiro Suematsu | Koji Kato | M. Honma | T. Higuchi | Kensuke Yamamoto | Y. Shimizu | Hiroyuki Mizukoshi | T. Kodama | T. Utsumi | Kazuhide Yoneya | Shintaro Hayashi | K. Inuzuka | Akio Sugahara | K. Tsunoda | Masahiro Kano | Y. Kuniyoshi | Kei Akiyama | Akira Arimizu | Yoshito Katano | M. Ehama

[1]  Hiroshi Nakamura,et al.  13.5 A 512Gb 3-bit/Cell 3D Flash Memory on 128-Wordline-Layer with 132MB/s Write Performance Featuring Circuit-Under-Array Technology , 2019, 2019 IEEE International Solid- State Circuits Conference - (ISSCC).

[2]  Jiyoon Park,et al.  13.1 A 1Tb 4b/cell NAND Flash Memory with tPROG=2ms, tR=110µs and 1.2Gb/s High-Speed IO Rate , 2020, 2020 IEEE International Solid- State Circuits Conference - (ISSCC).

[3]  Xu Li,et al.  A 512Gb 3b/Cell 3D flash memory on a 96-word-line-layer technology , 2018, 2018 IEEE International Solid - State Circuits Conference - (ISSCC).

[4]  Kyungmin Kim,et al.  13.4 A 512Gb 3-bit/Cell 3D 6th-Generation V-NAND Flash Memory with 82MB/s Write Throughput and 1.2Gb/s Interface , 2019, 2019 IEEE International Solid- State Circuits Conference - (ISSCC).