Sang-Won Shim | Researchain

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Featured researches published by Sang-Won Shim.

IEEE Journal of Solid-state Circuits | 2016

A 128 Gb 3b/cell V-NAND Flash Memory With 1 Gb/s I/O Rate

Woopyo Jeong; Jaewoo Im; Doohyun Kim; Sang-Wan Nam; Dongkyo Shim; Myung-Hoon Choi; Hyun-Jun Yoon; Dae-Han Kim; Y. Kim; Hyun Wook Park; Donghun Kwak; Sang-Won Park; Seok-Min Yoon; Wook-ghee Hahn; Jinho Ryu; Sang-Won Shim; Kyung-Tae Kang; Jeong-Don Ihm; In-Mo Kim; Doo-Sub Lee; Ji-Ho Cho; Moosung Kim; Jae-Hoon Jang; Sang-Won Hwang; Dae-Seok Byeon; Hyang-ja Yang; Kitae Park; Kye-Hyun Kyung; Jeong-Hyuk Choi

Most memory-chip manufacturers keep trying to supply cost-effective storage devices with high-performance characteristics such as shorter tPROG, lower power consumption and higher endurance. For many years, every effort has been made to shrink die size to lower cost and to improve performance. However, the previously used node-shrinking methodology is facing challenges due to increased cell-to-cell interference and patterning difficulties caused by decreasing dimension. To overcome these limitations, 3D-stacking technology has been developed. As a result of long and focused research in 3D stacking technology, we succeed in developing 128 Gb 3b/cell Vertical NAND with 32 stack WL layers for the first time, which is the smallest 128 Gb NAND Flash. The die size is 68.9 mm 2, program time is 700 us and I/O rate is 1 Gb/s.

symposium on vlsi circuits | 2012

A new 3-bit programming algorithm using SLC-to-TLC migration for 8MB/s high performance TLC NAND flash memory

Seung-Hwan Shin; Dongkyo Shim; Jaeyong Jeong; Oh-Suk Kwon; Sangyong Yoon; Myung-Hoon Choi; Tae-Young Kim; Hyun Wook Park; Hyun-Jun Yoon; Youngsun Song; Yoon-Hee Choi; Sang-Won Shim; Yang-Lo Ahn; Kitae Park; Jinman Han; Kye-Hyun Kyung; Young-Hyun Jun

We have developed a new 3-bit programming algorithm of high performance TLC(Triple-level-cell, 3-bit/cell) NAND flash memories for 20nm node and beyond. By using the proposed 3-bit algorithm based on reprogramming with SLC-to-TLC migration, performance and BER is improved by 50% and 68%, respectively, compared to conventional method. The proposed algorithm is successfully implemented in 21nm 64Gb TLC NAND flash product that provides 8MB/s write and 400MB/s read throughputs.

international solid-state circuits conference | 2015

7.2 A 128Gb 3b/cell V-NAND flash memory with 1Gb/s I/O rate

Jaewoo Im; Woopyo Jeong; Doohyun Kim; Sang-Wan Nam; Dongkyo Shim; Myung-Hoon Choi; Hyun-Jun Yoon; Dae-Han Kim; Y. Kim; Hyun Wook Park; Donghun Kwak; Sang-Won Park; Seok-Min Yoon; Wook-ghee Hahn; Jinho Ryu; Sang-Won Shim; Kyung-Tae Kang; Sung-Ho Choi; Jeong-Don Ihm; Young-Sun Min; In-Mo Kim; Doo-Sub Lee; Ji-Ho Cho; Oh-Suk Kwon; Ji-Sang Lee; Moosung Kim; Sang-Hyun Joo; Jae-Hoon Jang; Sang-Won Hwang; Dae-Seok Byeon

Most memory-chip manufacturers keep trying to supply cost-effective storage devices with high-performance characteristics such as smaller tPROG, lower power consumption and longer endurance. For many years, every effort has been made to shrink die size to lower cost and to improve performance. However, the previously used node-shrinking methodology is facing challenges due to increased cell-to-cell interference and patterning difficulties caused by decreasing dimension. To overcome these limitations, 3D-stacking technology has been developed. As a result of long and focused research in 3D stacking technology, 128Gb 2b/cell device with 24 stack WL layers was announced in 2014 [1].

international solid-state circuits conference | 2014

19.5 Three-dimensional 128Gb MLC vertical NAND Flash-memory with 24-WL stacked layers and 50MB/s high-speed programming

Kitae Park; Jinman Han; Dae-Han Kim; Sang-Wan Nam; Kihwan Choi; Min-Su Kim; Pan-Suk Kwak; Doo-Sub Lee; Yoon-He Choi; Kyung-Min Kang; Myung-Hoon Choi; Donghun Kwak; Hyun-Wook Park; Sang-Won Shim; Hyun-Jun Yoon; Doohyun Kim; Sang-Won Park; Kangbin Lee; Kuihan Ko; Dongkyo Shim; Yang-Lo Ahn; Jeunghwan Park; Jinho Ryu; Dong-Hyun Kim; Kyungwa Yun; Joonsoo Kwon; Seunghoon Shin; Dong-Kyu Youn; Won-Tae Kim; Tae-hyun Kim

Archive | 2012