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Ping Jing
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2020 – today
- 2024
- [j5]Bo Zhang, Anand Vasani, Ashutosh Sinha, Alireza Nilchi, Haitao Tong, Lakshmi P. Rao, Karapet Khanoyan, Hamid Hatamkhani, Xiaochen Yang, Xin Meng, Alexander Wong, Jun Kim, Ping Jing, Yehui Sun, Ali Nazemi, Dean Liu, Anthony Brewster, Jun Cao, Afshin Momtaz:
A 112-Gb/s Serial Link Transceiver With Three-Tap FFE and 18-Tap DFE Receiver for up to 43-dB Insertion Loss Channel in 7-nm FinFET Technology. IEEE J. Solid State Circuits 59(1): 8-18 (2024) - [j4]Shaotao Hu, Yuanheng Wang, Ping Jing, Qiao-Li Dong:
Strong convergence theorem for a new Bregman extragradient method with a different line-search process for solving variational inequality problems in reflexive Banach spaces. Optim. Lett. 18(3): 783-801 (2024) - [j3]Megan M. Wenner, Anna Ries-Roncalli, Mena C. R. Whalen, Ping Jing:
The Relationship between Indoor and Outdoor Fine Particulate Matter in a High-Rise Building in Chicago Monitored by PurpleAir Sensors. Sensors 24(8): 2493 (2024) - 2023
- [j2]Shaotao Hu, Yuanheng Wang, Ping Jing, Qiao-Li Dong:
A new Bregman projection method with a self-adaptive process for solving variational inequality problem in reflexive Banach spaces. Optim. Lett. 17(4): 935-954 (2023) - [c2]Bo Zhang, Anand Vasani, Ashutosh Sinha, Alireza Nilchi, Haitao Tong, Lakshmi P. Rao, Karapet Khanoyan, Hamid Hatamkhani, Xiaochen Yang, Xin Meng, Alexander Wong, Jun Kim, Ping Jing, Yehui Sun, Ali Nazemi, Dean Liu, Anthony Brewster, Jun Cao, Afshin Momtaz:
A 112Gb/s Serial Link Transceiver With 3-tap FFE and 18-tap DFE Receiver for up to 43dB Insertion Loss Channel in 7nm FinFET Technology. ISSCC 2023: 108-109
2010 – 2019
- 2014
- [j1]Hiroshi Kimura, Pervez M. Aziz, Tai Jing, Ashutosh Sinha, Shiva Prasad Kotagiri, Ram Narayan, Hairong Gao, Ping Jing, Gary Hom, Anshi Liang, Eric Zhang, Aniket Kadkol, Ruchi Kothari, Gordon Chan, Yehui Sun, Benjamin Ge, Jason Zeng, Kathy Ling, Michael C. Wang, Amaresh V. Malipatil, Lijun Li, Christopher J. Abel, Freeman Zhong:
A 28 Gb/s 560 mW Multi-Standard SerDes With Single-Stage Analog Front-End and 14-Tap Decision Feedback Equalizer in 28 nm CMOS. IEEE J. Solid State Circuits 49(12): 3091-3103 (2014) - [c1]Hiroshi Kimura, Pervez M. Aziz, Tai Jing, Ashutosh Sinha, Ram Narayan, Hairong Gao, Ping Jing, Gary Hom, Anshi Liang, Eric Zhang, Aniket Kadkol, Ruchi Kothari, Gordon Chan, Yehui Sun, Benjamin Ge, Jason Zeng, Kathy Ling, Michael C. Wang, Amaresh V. Malipatil, Shiva Kotagiri, Lijun Li, Christopher J. Abel, Freeman Zhong:
2.1 28Gb/s 560mW multi-standard SerDes with single-stage analog front-end and 14-tap decision-feedback equalizer in 28nm CMOS. ISSCC 2014: 38-39
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