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Mike Peng Li
Person information
- affiliation: Intel Corporation, SerDes, high-speed I/O, HSIO, Santa Clara, CA, USA
- affiliation: Altera Corporation, San Jose, CA, USA
- affiliation (2000-2007): Wavecrest Corporation, CTO, San Jose, CA, USA
- affiliation (2010-2020): University of Washington, Department of Electrical Engineering, Seattle, WA, USA
- affiliation (PhD 1991): University of Alabama in Huntsville, UAH, Huntsville, AL, USA
Other persons with the same name
- Peng Li — disambiguation page
- Peng Li 0001
— University of California, Santa Barbara, CA, USA (and 2 more)
- Peng Li 0002
- Peng Li 0003
- Peng Li 0004
- Peng Li 0005
- Peng Li 0006
- Peng Li 0007
- Peng Li 0008
- Peng Li 0009
- Peng Li 0010
- Peng Li 0011
- Peng Li 0012
- Peng Li 0013
- Peng Li 0014
- Peng Li 0015
- Peng Li 0016
- Peng Li 0017
- Peng Li 0018 — PUC-Rio Rio de Janeiro, Brazil (and 2 more)
- Peng Li 0019
- Peng Li 0020 — Microsoft Corporation, Redmond, WA, USA (and 1 more)
- Peng Li 0021 — Chinese Academy of Sciences, Institute of Information Engineering, Beijing, China
- Peng Li 0022 — Halliburton Energy Services Inc., Houston, TX, USA
- Peng Li 0023 — University of Houston, Department of Mechanical Engineering, TX, USA
- Peng Li 0024
- Peng Li 0025
- Peng Li 0026 — ByteDance Inc., Beijing, China (and 1 more)
- Peng Li 0027
- Peng Li 0028 — Intel Corporation, Hillsboro, OR, USA (and 1 more)
- Peng Li 0029
- Peng Li 0030
- Peng Li 0031
- Peng Li 0032 — Chinese Academy of Sciences, Institute of Automation, Beijing, China
- Peng Li 0033 — University of Texas at Dallas, Department of Computer Science, Richardson, TX, USA
- Peng Li 0034
- Peng Li 0035
- Peng Li 0036
- Peng Li 0037
- Peng Li 0038
- Peng Li 0039
- Peng Li 0040
- Peng Li 0041
- Peng Li 0042
- Peng Li 0043
- Peng Li 0044
- Peng Li 0045
- Peng Li 0046
- Peng Li 0047 — Geo-Centers, Inc., USA
- Peng Li 0048 — France Telecom Orange Labs (Beijing), China
- Peng Li 0049 — Shandong University of Science and Technology, College of Computer Science and Engineering, Qingdao, China
- Peng Li 0050
- Peng Li 0051
- Peng Li 0052
- Peng Li 0053
- Peng Li 0054
- Peng Li 0055 — Loughborough University, UK
- Peng Li 0056 — Alibaba Group, Hangzhou, China (and 2 more)
- Peng Li 0057
- Peng Li 0058 — University of Utah, School of Computing, UT, USA
- Peng Li 0059 — University of North Carolina, Chapel Hill, USA
- Peng Li 0060
- Peng Li 0062
- Peng Li 0063
- Peng Li 0064
- Peng Li 0065
- Peng Li 0066 — Shandong Normal University, School of Mathematics and Statistics, Jinan, Shandong, China
- Mike Li — disambiguation page
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2020 – today
- 2025
- [j4]Marco Cusmai
A 0.92-pJ/b PAM-4 and 0.61-pJ/b PAM-6 224-Gb/s DAC-Based Transmitter in 3-nm FinFET. IEEE J. Solid State Circuits 60(1): 23-34 (2025) - 2024
- [c22]Jihwan Kim, Ariel Cohen, Mike Peng Li, Ajay Balankutty, Sandipan Kundu, Ahmad Khairi, Yoel Krupnik, Yoav Segal, Marco Cusmai, Dror Lazar, Ari Gordon, Noam Familia, Kai Yu, Yutao Liu, Matthew Beach, Priya Wali, Hsinho Wu, Masashi Shimanouchi, Jenny Xiaohong Jiang, Zhiguo Qian, Kemal Aygun, Itamar Levin, Frank O'Mahony:
Design of 224Gb/s DSP-Based Transceiver in CMOS Technology: Signal Integrity, Architecture, Circuits, and Packaging. CICC 2024: 1-8 - [c21]Marco Cusmai, Noam Familia, Elad Kuperberg, Mohammad Nashash, Dovid Gottesman, Daljeet Kumar, Zvi Marcus, Yeshayahu Horwitz, Sagi Zalcman, Jihwan Kim, Sandipan Kundu, Ilia Radashkevich, Yoav Segal, Dror Lazar, Udi Virobnik, Mike Peng Li, Ariel Cohen:
7.2 A 224Gb/s sub pJ/b PAM-4 and PAM-6 DAC-Based Transmitter in 3nm FinFET. ISSCC 2024: 126-128 - 2023
- [j3]Ahmad Khairi, Yoel Krupnik
A 1.41-pJ/b 224-Gb/s PAM4 6-bit ADC-Based SerDes Receiver With Hybrid AFE Capable of Supporting Long Reach Channels. IEEE J. Solid State Circuits 58(1): 8-18 (2023) - 2022
- [j2]Jihwan Kim
A 224-Gb/s DAC-Based PAM-4 Quarter-Rate Transmitter With 8-Tap FFE in 10-nm FinFET. IEEE J. Solid State Circuits 57(1): 6-20 (2022) - [c20]Yoav Segal, Amir Laufer, Ahmad Khairi, Yoel Krupnik, Marco Cusmai, Itamar Levin, Ari Gordon, Yaniv Saban, Vitali Rahinskj, Gadi Ori, Noam Familia, Stas Litski, Tali Warshavsky, Udi Virobnik, Yeshayahu Horwitz, Ajay Balankutty, Shiva Kiran, Samuel Palermo
A 1.41pJ/b 224Gb/s PAM-4 SerDes Receiver with 31dB Loss Compensation. ISSCC 2022: 114-116
2010 – 2019
- 2014
- [c19]Masahiro Ishida, Takahiro J. Yamaguchi, Mani Soma, Terri S. Fiez, Mike Peng Li:
Special session 8C: Hot topic: Designers' and test researchers' roles in analog design-for-test. VTS 2014: 1 - 2013
- [j1]Roy D. Cideciyan, Mark Gustlin, Mike Peng Li, John Wang, Zhongfeng Wang:
Next generation backplane and copper cable challenges. IEEE Commun. Mag. 51(12): 130-136 (2013) - [c18]Mike Peng Li, Masashi Shimanouchi, Hsinho Wu:
Advancements in high-speed link modeling and simulation (An invited paper for CICC 2013). CICC 2013: 1-8 - [c17]Mike Peng Li, Takahiro J. Yamaguchi:
Electrical and photonic I/O test and debug. CICC 2013: 1-2 - [c16]Daniel Chow, Masashi Shimanouchi, Mike Peng Li:
Theory, model, and applications of non-Gaussian probability density functions for random jitter/noise with non-white power spectral densities. ITC 2013: 1-8 - 2012
- [c15]Weichi Ding, Mingde Pan, Wilson Wong, Daniel Chow, Mike Peng Li, Sergey Y. Shumarayev:
On-die instrumentation to solve challenges for 28nm, 28Gbps timing variability and stressing. ITC 2012: 1-7
2000 – 2009
- 2009
- [c14]Mike Peng Li, Sergey Y. Shumarayev:
Emerging standards at ∼10 Gbps for wireline communications and associated integrated circuit design and validation. CICC 2009: 105-112 - [c13]Masashi Shimanouchi, Mike Peng Li, Daniel Chow:
New modeling methods for bounded Gaussian jitter (BGJ)/noise (BGN) and their applications in jitter/noise estimation/testing. ITC 2009: 1-8 - 2008
- [c12]Mike Peng Li:
Jitter and Signal Integrity Verification for Synchronous and Asynchronous I/Os at Multiple to 10 GHz/Gbps. ITC 2008: 1-6 - 2007
- [c11]Mike Peng Li, Jinhua Chen:
New methods for receiver internal jitter measurement. ITC 2007: 1-10 - 2006
- [c10]Mike Peng Li:
Jitter And Signaling Test For High-Speed Links. CICC 2006: 65-72 - 2004
- [c9]Mike Li, Andy Martwick, Gerry Talbot, Jan B. Wilstrup:
Transfer Functions For The Reference Clock Jitter In A Serial Link: Theory And Applications. ITC 2004: 1158-1167 - [c8]Mike Li:
Is "Design to Production" The Ultimate Answer For Jitter, Noise, and BER Challenges For Multi GB/s ICs? ITC 2004: 1433 - [c7]Mike Li:
Will "Heisenberg Uncertainty Principle" Hold For Designing and Testing Multiple GB/s ICs? ITC 2004: 1436 - 2003
- [c6]Mike Peng Li, Jan B. Wilstrup:
Paradigm Shift For Jitter and Noise In Design and Test > GB/s Communication Systems. ICCD 2003: 467- - [c5]Jie Sun, Mike Li:
A Generic Test Path and DUT Model for DataCom ATE. ITC 2003: 528-536 - [c4]Mike Li:
Production Test Challenges And Possible Solutions For Multiple GB/s ICs. ITC 2003: 1306 - [c3]Mike Li:
Requirements, Challenges, And Solutions For Testing Multiple GB/s ICs In Production. ITC 2003: 1309 - 2002
- [c2]Mike Peng Li, Jan B. Wilstrup:
On the Accuracy of Jitter Separation from Bit Error Rate Function. ITC 2002: 710-716
1990 – 1999
- 1999
- [c1]Mike Peng Li, Jan B. Wilstrup, Ross Jessen, Dennis Petrich:
A new method for jitter decomposition through its distribution tail fitting. ITC 1999: 788-794
Coauthor Index
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