A 16Gb 9.5Gb/S/pin LPDDR5X SDRAM With Low-Power Schemes Exploiting Dynamic Voltage-Frequency Scaling and Offset-Calibrated Readout Sense Amplifiers in a Fourth Generation 10nm DRAM Process

Dae-Hyun Kim, Byungkyu Song, Hyun-a Ahn, Woongjoon Ko, Sung-Geun Do, Seokjin Cho, Kihan Kim, Seung-Hoon Oh, Hye-Yoon Joo, Geuntae Park, Jin-Hun Jang, Yong Hun Kim, Donghun Lee, Jaehoon Jung, Yongmin Kwon, Youngjae Kim, Jaewoo Jung, Seongil O, Seoulmin Lee, Jaeseong Lim, Junho Son, Jisu Min, Haebin Do, Jaejun Yoon, Isak Hwang, Jinsol Park, Hong Shim, Seryeong Yoon, Dongyeong Choi, Jihoon Lee, Soohan Woo, Eunki Hong, Junha Choi, Jae-Sung Kim, Sangkeun Han, Jong-Min Bang, Bokgue Park, Jang-Hoo Kim, Seouk-Kyu Choi, Gong-Heum Han, Yoo-Chang Sung, Wonil Bae, Jeong-Don Lim, Seungjae Lee, Changsik Yoo, Sang Joon Hwang, Jooyoung Lee. A 16Gb 9.5Gb/S/pin LPDDR5X SDRAM With Low-Power Schemes Exploiting Dynamic Voltage-Frequency Scaling and Offset-Calibrated Readout Sense Amplifiers in a Fourth Generation 10nm DRAM Process. In IEEE International Solid-State Circuits Conference, ISSCC 2022, San Francisco, CA, USA, February 20-26, 2022. pages 448-450, IEEE, 2022. [doi]