default search action
Young-Kai Chen
Person information
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
showing all ?? records
2020 – today
- 2021
- [c46]Govind Sharan Yadav, Chun-Yen Chuang, Kai-Ming Feng, Jyehong Chen, Young-Kai Chen:
Structured Sparsity Learning-based pruned retraining Volterra Equalization for Data-Center Interconnects. OFC 2021: 1-3
2010 – 2019
- 2019
- [c45]Young-Kai Chen, Tsu-Hsi Chang, Abirami Sivananthan:
Advanced mm-Wave Power Electronics (Invited Talk). BCICTS 2019: 1-4 - [c44]Chun-Yen Chuang, Wei-Fan Chang, Chia-Chien Wei, Ching-Ju Ho, Cheng-Yu Huang, Jin-Wei Shi, Lindor Henrickson, Young-Kai Chen, Jyehong Chen:
Sparse Volterra Nonlinear Equalizer by Employing Pruning Algorithm for High-Speed PAM-4 850-nm VCSEL Optical Interconnect. OFC 2019: 1-3 - [c43]Yung Hsu, Chun-Yen Chuang, Yeyu Tong
, Chi-Wai Chow
Implementing Deep Neural Network for Signal Transmission Distortion Mitigation of PAM-4 Generated by Silicon Mach-Zehnder Modulator. OECC/PSC 2019: 1-3 - 2018
- [j18]Nihel Benzaoui
CBOSS: Bringing Traffic Engineering Inside Data Center Networks. JOCN 10(7): B117-B125 (2018) - [c42]Chun-Yen Chuang, Li-Chun Liu, Chia-Chien Wei, Jun-Jie Liu, Lindor Henrickson, Chih-Lin Wang, Young-Kai Chen, Jyehong Chen:
Study of Training Patterns for Employing Deep Neural Networks in Optical Communication Systems. ECOC 2018: 1-3 - [c41]Chun-Yen Chuang, Li-Chun Liu, Chia-Chien Wei, Jun-Jie Liu, Lindor Henrickson, Wan-Jou Huang, Chih-Lin Wang, Young-Kai Chen, Jyehong Chen:
Convolutional Neural Network based Nonlinear Classifier for 112-Gbps High Speed Optical Link. OFC 2018: 1-3 - 2017
- [j17]Boyu Hu
A Capacitor-DAC-Based Technique For Pre-Emphasis-Enabled Multilevel Transmitters. IEEE Trans. Circuits Syst. II Express Briefs 64-II(9): 1012-1016 (2017) - [j16]Boyu Hu
An R2R-DAC-Based Architecture for Equalization-Equipped Voltage-Mode PAM-4 Wireline Transmitter Design. IEEE Trans. Very Large Scale Integr. Syst. 25(11): 3260-3264 (2017) - [c40]Chun-Yen Chuang, Chia-Chien Wei, Tien-Chien Lin, Kai-Lun Chi, Li-Chun Liu, Jin-Wei Shi, Young-Kai Chen, Jyehong Chen:
Employing Deep Neural Network for High Speed 4-PAM Optical Interconnect. ECOC 2017: 1-3 - [c39]Po Dong, Anaelle Maho, Romain Brenot, Young-Kai Chen, Argishti Melikyan:
Directly Reflectivity Modulated Laser. ECOC 2017: 1-3 - [c38]José Manuel Estarán, Eric Dutisseuil, Haïk Mardoyan, Guilhem de Valicourt, Arnaud Dupas, Quan Pham-Van, Dominique Verchère, Bogdan Uscumlic, Po Dong, Young-Kai Chen, Sébastien Bigo, Yvan Pointurier:
Cloud-BOSS Intra-Data Center Network: On-Demand QoS Guarantees via μβ Optical Slot Switching. ECOC 2017: 1-3 - [c37]Robert Gatdula, Kwangwoong Kim, Argishti Melikyan, Young-Kai Chen, Po Dong:
Three-channel Thermal Adaptation of Polarization Insensitive Silicon Photonics WDM Receiver. ECOC 2017: 1-3 - [c36]Shao-Yu Lu, Chia-Chien Wei, Chun-Yen Chuang, Young-Kai Chen, Jyehong Chen:
81.7% Complexity Reduction of Volterra Nonlinear Equalizer by Adopting L1 Regularization Penalty in an OFDM Long-Reach PON. ECOC 2017: 1-3 - [c35]Argishti Melikyan, Guilhem de Valicourt, Kwangwoong Kim, Nicolas K. Fontaine, Young-Kai Chen, Po Dong:
Hybrid III-V/Silicon Laser with Integrated Athermal Wavelength Locker. ECOC 2017: 1-3 - [c34]Guilhem de Valicourt, Joseph Kakande, Chia-Ming Chang, Jeffrey H. Sinsky, Young-Kai Chen, Bob Tkach, Po Dong:
Fully Monolithic Integrated Silicon Photonics Slave Transceiver for Short-Reach Network. ECOC 2017: 1-3 - [c33]Chia-Ming Chang, Guilhem de Valicourt, Jeffrey Lee, K. W. Kim, Michael S. Eggleston, Po Dong, Anaelle Maho, Romain Brenot, Young-Kai Chen:
Small form factor hybrid Ill-V/Si wavelength-tunable push-pull microring based transmitter. OFC 2017: 1-3 - [c32]Chun-Yen Chuang, Chia-Chien Wei, Jun-Jie Liu, Hsin-Yu Wu, Hong-Minh Nguyen, Chun-Wei Wang, Shao-Yu Lu, Young-Kai Chen, Jyehong Chen:
A high loss budget 400-Gbps WDM-OFDM long-reach PON over 60 km transmission by 10G-class EAM and PIN without in-line or pre-amplifier. OFC 2017: 1-3 - [c31]Noriaki Kaneda, Jeffrey Lee, Young-Kai Chen:
Nonlinear equalizer for 112-Gb/s SSB-PAM4 in 80-km dispersion uncompensated link. OFC 2017: 1-3 - [c30]Argishti Melikyan, Kwangwok Kim, Young-Kai Chen, Po Dong:
Tapless locking of silicon ring modulators for WDM applications. OFC 2017: 1-3 - [c29]Guilhem de Valicourt, Chia-Ming Chang, S. Chandrasekhar, Young-Kai Chen, Anaelle Maho, R. Brenot, Po Dong:
Integrated 5-channel WDM hybrid III-V/Si transmitter enabling 100Gb/s and beyond. OFC 2017: 1-3 - [c28]Guilhem de Valicourt, Chia-Ming Chang, Michael S. Eggleston, Argishti Melikyan, C. Zhu, J. Lee, Jesse E. Simsarian, S. Chandrasekhar, Jeffrey H. Sinsky, Kwangwoong Kim, Anaelle Maho, R. Brenot, Po Dong, Young-Kai Chen:
Hybrid III-V/Silicon integration: Enabling the next generation of advanced photonic transmitters. OFC 2017: 1-3 - [c27]Guilhem de Valicourt, Michael S. Eggleston, C. Zhu, J. Lee, Chia-Ming Chang, Jeffrey H. Sinsky, K. W. Kim, Young-Kai Chen, Anaelle Maho, R. Brenot, Po Dong:
80Gb/s PDM-QPSK PIC-to-PIC transmission based on integrated hybrid silicon/III-V wavelength-tunable transmitter and monolithic silicon coherent receiver. OFC 2017: 1-3 - [c26]Guilhem de Valicourt, Agnes Verdier, R. Brenot, Young-Kai Chen, Po Dong:
Integrated ultra-wide band wavelength-tunable hybrid external cavity silicon-based laser. OFC 2017: 1-3 - 2016
- [c25]Chun-Chen Liu, Yen-Hsiang Wang, Yilei Li, Chien-Heng Wong, Tien Pei Chou, Young-Kai Chen, M.-C. Frank Chang
Invited - A 2.2 GHz SRAM with high temperature variation immunity for deep learning application under 28nm. DAC 2016: 2:1-2:6 - [c24]Po Dong, Jeffrey Lee, Kwangwoong Kim, Young-Kai Chen, Chengcheng Gui:
Ten-channel discrete multi-tone modulation using silicon microring modulator array. OFC 2016: 1-3 - [c23]Jeffrey Lee, Po Dong, Noriaki Kaneda, Young-Kai Chen:
Discrete multi-tone transmission for short-reach optical connections. OFC 2016: 1-3 - [c22]Guilhem de Valicourt, S. Chandrasekhar, Sebastian Randel, Young-Kai Chen, M. A. Mestre, Yvan Pointurier, Sébastien Bigo, Jean-Marc Fedeli, Laurent Bramerie, Jean-Claude Simon, Laurent Vivien, Alexandre Shen, Guang-Hua Duan:
16-Channel 100 GHz-spaced integrated polarization diversity silicon-based slot-blocker for high data rate reconfigurable networks. OFC 2016: 1-3 - [c21]Guilhem de Valicourt, Jesse E. Simsarian, Anaelle Maho, R. Brenot, K. W. Kim, Argishti Melikyan, Po Dong, Chia-Ming Chang, Young-Kai Chen:
Dual hybrid silicon-photonic laser with fast wavelength tuning. OFC 2016: 1-3 - 2015
- [j15]Po Dong, Young-Kai Chen, Tingyi Gu
Reconfigurable 100 Gb/s Silicon Photonic Network-on-Chip [Invited]. JOCN 7(1): A37-A43 (2015) - [c20]Po Dong, Jeffrey Lee, Young-Kai Chen, Lawrence L. Buhl, Jeffrey H. Sinsky, Kwangwoong Kim:
Four-channel vestigial sideband discrete multi-tone modulation using silicon photonic integrated circuits. ECOC 2015: 1-3 - [c19]Chengcheng Gui, Po Dong, Guilhem de Valicourt, Haoshuo Chen, Nicolas K. Fontaine, Kwangwoong Kim, Young-Kai Chen:
Experimental demonstration of quadrature phase-shift keying silicon ring modulator based on intensity modulation. ECOC 2015: 1-3 - [c18]Jeffrey Lee, Shahriar Shahramian, Noriaki Kaneda, Yves Baeyens, Jeffrey H. Sinsky, Lawrence L. Buhl, Joe Weiner, Ut-Va Koc, Agnieszka Konczykowska, Jean-Yves Dupuy, Filipe Jorge, Ricardo Aroca, Timo Pfau, Young-Kai Chen:
Demonstration of 112-Gbit/s optical transmission using 56GBaud PAM-4 driver and clock-and-data recovery ICs. ECOC 2015: 1-3 - [c17]Guilhem de Valicourt, Sethumadhavan Chandrasekhar, Jeffrey H. Sinsky, Chia-Ming Chang, Young-Kai Chen, M. A. Mestre, Yvan Pointurier, Sébastien Bigo, Jean-Marc Fedeli, Laurent Bramerie
Monolithic integrated reflective polarization diversity SOI-based slot-blocker for fast reconfigurable 128 Gb/s and 256 Gb/s optical networks. ECOC 2015: 1-3 - [c16]Guilhem de Valicourt, Po Dong, Kwangwoong Kim, Chia-Ming Chang, Jeffrey H. Sinsky, Lawrence L. Buhl, Young-Kai Chen:
16-Channel digitally wavelength-tunable hybrid III-V/silicon laser. ECOC 2015: 1-3 - [c15]Chia-Ming Chang, Jeffrey H. Sinsky, Po Dong, Guilhem de Valicourt, Young-Kai Chen:
Dual-illuminated parallel-fed traveling wave germanium photodetectors. OFC 2015: 1-3 - [c14]Po Dong, Young-Kai Chen, Lawrence L. Buhl:
Reconfigurable four-channel polarization diversity silicon photonic WDM receiver. OFC 2015: 1-3 - [c13]Po Dong, Jeffrey Lee, Young-Kai Chen, Lawrence L. Buhl, S. Chandrasekhar, Jeffrey H. Sinsky, Kwangwoong Kim:
Four-channel 100-Gb/s per channel discrete multi-tone modulation using silicon photonic integrated circuits. OFC 2015: 1-3 - 2014
- [c12]Po Dong, Chongjin Xie, Lawrence L. Buhl, Young-Kai Chen, Jeffrey H. Sinsky, Gregory Raybon:
Silicon in-phase/quadrature modulator with on-chip optical equalizer. ECOC 2014: 1-3 - [c11]Noriaki Kaneda, Timo Pfau, Huan Zhang, Jeffrey Lee, Young-Kai Chen, Chun Ju Youn, Yong Hwan Kwon, Eun Soo Num, S. Chandrasekhar:
Field demonstration of 100-Gb/s real-time coherent optical OFDM detection. ECOC 2014: 1-3 - [c10]Young-Kai Chen:
Coherent transmitters and receivers for pluggable modules. OFC 2014: 1-3 - [c9]Po Dong, Young-Kai Chen, Tingyi Gu
Reconfigurable 100 Gb/s silicon photonic network-on-chip. OFC 2014: 1-3 - [c8]Jeffrey Lee, Noriaki Kaneda, Timo Pfau, Agnieszka Konczykowska, Filipe Jorge, Jean-Yves Dupuy, Young-Kai Chen:
Serial 103.125-Gb/s transmission over 1 km SSMF for low-cost, short-reach optical interconnects. OFC 2014: 1-3 - 2013
- [j14]Shahriar Shahramian, Yves Baeyens, Noriaki Kaneda, Young-Kai Chen:
A 70-100 GHz Direct-Conversion Transmitter and Receiver Phased Array Chipset Demonstrating 10 Gb/s Wireless Link. IEEE J. Solid State Circuits 48(5): 1113-1125 (2013) - [c7]Po Dong, Xiang Liu, Sethumadhavan Chandrasekhar, Lawrence L. Buhl, Ricardo Aroca, Yves Baeyens, Young-Kai Chen:
224-Gb/s PDM-16-QAM modulator and receiver based on silicon photonic integrated circuits. OFC/NFOEC 2013: 1-3 - [c6]Po Dong, Chongjin Xie, Lawrence L. Buhl, Young-Kai Chen:
Silicon microring modulators for advanced modulation formats. OFC/NFOEC 2013: 1-3 - 2012
- [c5]Chang-Seok Choi, Hanho Lee, Noriaki Kaneda, Young-Kai Chen:
Concatenated non-binary LDPC and HD-FEC codes for 100Gb/s optical transport systems. ISCAS 2012: 1783-1786 - 2011
- [j13]Shih-An Yu, Yves Baeyens, Joseph Weiner, Ut-Va Koc, Marta Rambaud, Fang-Ren Liao, Young-Kai Chen, Peter R. Kinget
A Single-Chip 125-MHz to 32-GHz Signal Source in 0.18- μ m SiGe BiCMOS. IEEE J. Solid State Circuits 46(3): 598-614 (2011) - [j12]Qun Jane Gu, Heng-Yu Jian, Zhiwei Xu, Yi-Cheng Wu, Mau-Chung Frank Chang
CMOS Prescaler(s) With Maximum 208-GHz Dividing Speed and 37-GHz Time-Interleaved Dual-Injection Locking Range. IEEE Trans. Circuits Syst. II Express Briefs 58-II(7): 393-397 (2011) - 2010
- [j11]Jaesik Lee, Joseph Weiner, Young-Kai Chen:
A 20-GS/s 5-b SiGe ADC for 40-Gb/s Coherent Optical Links. IEEE Trans. Circuits Syst. I Regul. Pap. 57-I(10): 2665-2674 (2010)
2000 – 2009
- 2009
- [j10]Nils Weimann
InP DHBT circuits: From device physics to 40Gb/s and 100Gb/s transmission system experiments. Bell Labs Tech. J. 14(3): 43-62 (2009) - 2008
- [c4]Jaesik Lee, Joseph Weiner, Pascal Roux, Andreas Leven, Young-Kai Chen:
A 24GS/s 5-b ADC with closed-loop THA in 0.18μm SiGe BiCMOS. CICC 2008: 313-316 - 2007
- [c3]Jaesik Lee, Joseph Weiner, Hsin-Hung Chen, Yves Baeyens, Vladimir Aksyuk
CMOS-Based MEMS Mirror Driver for Maskless Lithography Systems. CICC 2007: 401-404 - [c2]Jaesik Lee, Yves Baeyens, Joseph Weiner, Young-Kai Chen:
A 50GS/s Distributed T/H Amplifier in 0.18μm SiGe BiCMOS. ISSCC 2007: 466-616 - 2004
- [j9]Jaesik Lee, Pascal Roux, Ut-Va Koc, Thomas Link, Yves Baeyens, Young-Kai Chen:
A 5-b 10-GSample/s a/D converter for 10-gb/s optical receivers. IEEE J. Solid State Circuits 39(10): 1671-1679 (2004) - [j8]Yves Baeyens, Nils Weimann
High gain-bandwidth differential distributed InP D-HBT driver amplifiers with large (11.3 Vpp) output swing at 40 Gb/s. IEEE J. Solid State Circuits 39(10): 1697-1705 (2004) - [j7]Joseph S. Weiner, Jaesik Lee, Andreas Leven, Yves Baeyens, Vincent Houtsma, George Georgiou, Yang Yang, John Frackoviak, Alaric Tate, Roberto Reyes, Rose F. Kopf, Wei-Jer Sung, Nils Weimann, Young-Kai Chen:
An InGaAs-InP HBT differential transimpedance amplifier with 47-GHz bandwidth. IEEE J. Solid State Circuits 39(10): 1720-1723 (2004) - 2003
- [j6]Joseph S. Weiner, Andreas Leven, Vincent Houtsma, Yves Baeyens, Young-Kai Chen, Peter Paschke, Yang Yang, John Frackoviak, Wei-Jer Sung, Alaric Tate, Roberto Reyes, Rose F. Kopf, Nils Weimann
SiGe differential transimpedance amplifier with 50-GHz bandwidth. IEEE J. Solid State Circuits 38(9): 1512-1517 (2003) - [j5]Jaesik Lee, Andreas Leven, Joseph S. Weiner, Yves Baeyens, Yang Yang, Wei-Jer Sung, John Frackoviak, Rose F. Kopf, Young-Kai Chen:
A 6-b 12-GSamples/s track-and-hold amplifier in InP DHBT technology. IEEE J. Solid State Circuits 38(9): 1533-1539 (2003) - 2002
- [j4]George Georgiou, Yves Baeyens, Young-Kai Chen, Alan H. Gnauck, Carsten Gröpper, Peter Paschke, Rajasekhar Pullela, Mario Reinhold, Claus Dorschky, John Paul Mattia, Timo Winkler von Mohrenfels, Christoph Schulien:
Clock and data recovery IC for 40-Gb/s fiber-optic receiver. IEEE J. Solid State Circuits 37(9): 1120-1125 (2002) - [j3]Yves Baeyens, George Georgiou, Joseph S. Weiner, Andreas Leven, Vincent Houtsma, Peter Paschke, Q. Lee, Rose F. Kopf, Yang Yang, L. Chua, C. Chen, C. T. Liu, Young-Kai Chen:
InP D-HBT ICs for 40-Gb/s and higher bitrate lightwave transceivers. IEEE J. Solid State Circuits 37(9): 1152-1159 (2002)
1990 – 1999
- 1998
- [j2]Jiunn-Tsair Chen, Jen-Wei Liang, Huan-Shang Tsai, Young-Kai Chen:
Low-complexity joint MLSE receiver in the presence of CCI. IEEE Commun. Lett. 2(5): 125-127 (1998) - [j1]Jiunn-Tsair Chen, Jen-Wei Liang, Huan-Shang Tsai, Young-Kai Chen:
Joint MLSE receiver with dynamic channel description. IEEE J. Sel. Areas Commun. 16(9): 1604-1615 (1998) - [c1]Jiunn-Tsair Chen, Jen-Wei Liang, Huan-Shang Tsai, Young-Kai Chen:
Low complexity joint MLSE receiver in the presence of CCI. ICC 1998: 704-708
Coauthor Index
manage site settings
To protect your privacy, all features that rely on external API calls from your browser are turned off by default. You need to opt-in for them to become active. All settings here will be stored as cookies with your web browser. For more information see our F.A.Q.
Unpaywalled article links
Add open access links from to the list of external document links (if available).
Privacy notice: By enabling the option above, your browser will contact the API of unpaywall.org to load hyperlinks to open access articles. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Unpaywall privacy policy.
Archived links via Wayback Machine
For web page which are no longer available, try to retrieve content from the of the Internet Archive (if available).
Privacy notice: By enabling the option above, your browser will contact the API of archive.org to check for archived content of web pages that are no longer available. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Internet Archive privacy policy.
Reference lists
Add a list of references from ,
, and
to record detail pages.
load references from crossref.org and opencitations.net
Privacy notice: By enabling the option above, your browser will contact the APIs of crossref.org, opencitations.net, and semanticscholar.org to load article reference information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the Crossref privacy policy and the OpenCitations privacy policy, as well as the AI2 Privacy Policy covering Semantic Scholar.
Citation data
Add a list of citing articles from and
to record detail pages.
load citations from opencitations.net
Privacy notice: By enabling the option above, your browser will contact the API of opencitations.net and semanticscholar.org to load citation information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the OpenCitations privacy policy as well as the AI2 Privacy Policy covering Semantic Scholar.
OpenAlex data
Load additional information about publications from .
Privacy notice: By enabling the option above, your browser will contact the API of openalex.org to load additional information. Although we do not have any reason to believe that your call will be tracked, we do not have any control over how the remote server uses your data. So please proceed with care and consider checking the information given by OpenAlex.
last updated on 2024-09-28 01:28 CEST by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint
dblp was originally created in 1993 at:
since 2018, dblp has been operated and maintained by:
the dblp computer science bibliography is funded and supported by: