Your search keyword '"Anil Kavala"' showing total 3 results

1. A 1.8-Gb/s/Pin 16-Tb NAND Flash Memory Multi-Chip Package With F-Chip for High-Performance and High-Capacity Storage

Author

Youngmin Jo, Ji-Yeon Shin, Dae Seok Byeon, Dong-Su Jang, Jin-Yub Lee, Dongku Kang, Anil Kavala, Tae-Sung Lee, Junha Lee, Seon-Kyoo Lee, Jai Hyuk Song, Byung-Hoon Jeong, Byung-Kwan Chun, Eunjin Song, Hwasuk Cho, Manjae Yang, Seung-jae Lee, Lee Jangwoo, Tongsung Kim, Jungdon Ihm, Daehoon Na, and Chi-Weon Yoon

Subjects

Hardware_MEMORYSTRUCTURES, business.industry, Computer science, Interface (computing), 020208 electrical & electronic engineering, NAND gate, 02 engineering and technology, Chip, Built-in self-test, 0202 electrical engineering, electronic engineering, information engineering, Signal integrity, Electrical and Electronic Engineering, business, Retiming, Throughput (business), Computer hardware, PCI Express

Abstract

This article presents a 1.2-V, 1.8-Gb/s/pin 16-Tb NAND flash memory multi-chip package incorporating 16 dies of 1-Tb NAND flash memory and the third-generation F-chip. The proposed third-generation F-chip is developed to meet the performance requirements of a high-capacity storage device that adopts a PCIe Gen four-host interface for higher data throughput. It is implemented with dual bi-directional transceiver architecture and signal retiming scheme to maximize the valid data window opening on solid-state drive (SSD) channels. Also, it facilitates training between F-chip and NAND using an on-chip delay-locked loop whose locking is proposed in strobe-based NAND systems to achieve sufficient signal integrity (SI) of the in-package channel at a speed of 1.8 Gb/s/pin. Embedded built-in self-test evaluates un-selected paths and determines if re-training is required without losing data throughput performance. This work achieves a 35% improvement in the I/O operational speed performance and a 23% reduction in the I/O power consumption in comparison with the previous generations.

Published

2021

2. A 1.8 Gb/s/pin 16Tb NAND Flash Memory Multi-Chip Package with F-Chip of Toggle 4.0 Specification for High Performance and High Capacity Storage Systems

Author

Seon-Kyoo Lee, Jungdon Ihm, Sunwon Jung, Jin-Yup Lee, Seung-jae Lee, Daehoon Na, Anil Kavala, Tongsung Kim, Tae-Sung Lee, Chi-Weon Yoon, Dae-Woon Kang, Lee Jangwoo, Junha Lee, Eunjin Song, Byung-Hoon Jeong, Byung-Kwan Chun, Dong-Su Jang, Chan-Ho Kim, Dae Seok Byeon, Doo-Il Jung, Hwasuk Cho, Dongku Kang, Jai Hyuk Song, Manjae Yang, Sang-joon Hwang, and Youngmin Jo

Subjects

Hardware_MEMORYSTRUCTURES, Computer science, business.industry, Bandwidth (signal processing), NAND gate, Chip, Flash memory, Built-in self-test, Hardware_INTEGRATEDCIRCUITS, Signal integrity, business, Throughput (business), Computer hardware, PCI Express

Abstract

A 1.2 V, 1.8 Gb/s/pin 16Tb-NAND flash memory multi-chip package incorporating with 16-dies of 1-Tb NAND flash memory and the 3rd generation F-Chip is proposed. The proposed F-Chip is developed to meet the performance requirements of high capacity storage devices that adopts PCIe Gen 4 host interface for faster data throughput. It is implemented with Toggle 4.0 standard on dual bi-directional transceiver architecture to achieve maximum valid data window on SSD channels. Also, it facilitates training between F-chip and NAND using on chip DLL and BIST to achieve sufficient signal integrity on in-package channel for 1.8Gb/s/pin. This work achieves a 35% improvement in the I/O operational speed performance and a 23% reduction in the I/O power consumption in comparison with the previous generations.

Published

2020

3. A 1.2V 1.33Gb/s/pin 8Tb NAND flash memory multi-chip package employing F-chip for low power and high performance storage applications

Author

Yunhee Choi, Jindo Byun, Bong-Kil Jung, Hyeonggon Kim, Dae-Seok Byeon, Sung-Hoon Kim, Ki-Sung Kim, Yena Lee, Chang-Bum Kim, Chan-Jin Park, Han-Sung Joo, Jaehwan Kim, Young-don Choi, Hyun-Jin Kim, Seungwoo Yu, Nahyun Kim, Jin-Yub Lee, Youngmin Jo, Anil Kavala, Lee Jangwoo, Kye-Hyun Kyung, Jeong-Don Ihm, Kwang-won Kim, Daehoon Na, Pansuk Kwak, Park Jung-June, and Kitae Park

Subjects

Hardware_MEMORYSTRUCTURES, business.industry, Computer science, NAND gate, Chip, Flash (photography), Embedded system, Hardware_INTEGRATEDCIRCUITS, Signal integrity, Transceiver, business, Retiming, Throughput (business), Computer hardware, Flash file system

Abstract

A 1.2 V 1.33Gb/s/pin 8Tb NAND flash memory multi-chip package incorporating 16-die stacked 512-Gb NAND flash memories and F-Chip is presented. To meet the performance requirements of storage devices for higher capacity and faster data throughput, the 2nd generation F-Chip is developed. The F-Chip presents a dual bi-directional transceiver architecture including data retiming and training techniques to adaptively improve signal integrity. Besides, the F-Chip supports 1.2 V I/O for low power storage applications. This work, as a result, shows 33% improvement of eye-opening performances and 41% reduction of I/O power consumption compared to the previous generation.

Published

2017