default search action
Parag Upadhyaya
Person information
Refine list
refinements active!
zoomed in on ?? of ?? records
view refined list in
export refined list as
2020 – today
- 2024
- [c24]Chuan Xie, Mayank Raj, Anish Joshi, Zakriya Mohammed, Gareeyasee Saha, Zhaowen Wang, Parag Upadhyaya, Yohan Frans:
A 64 Gb/s NRZ O-Band Ring Modulator with 3.2 THz FSR for DWDM Applications. OFC 2024: 1-3 - 2023
- [c23]Mayank Raj, Chuan Xie, Ade Bekele, Adam Chou, Wenfeng Zhang, Ying Cao, Jae Wook Kim, Nakul Narang, Hongyuan Zhao, Yipeng Wang, Kee Hian Tan, Winson Lin, Jay Im, David Mahashin, Santiago Asuncion, Parag Upadhyaya, Yohan Frans:
A O.96pJ/b 7 × 50Gb/s-per-Fiber WDM Receiver with Stacked 7nm CMOS and 45nm Silicon Photonic Dies. ISSCC 2023: 204-205 - 2022
- [j9]Chi Fung Poon, Wenfeng Zhang, Junho Cho, Shaojun Ma, Yipeng Wang, Ying Cao, Asma Laraba, Eugene Ho, Winson Lin, Zhaoyin Daniel Wu, Kee Hian Tan, Parag Upadhyaya, Yohan Frans:
A 1.24-pJ/b 112-Gb/s (870 Gb/s/Mm) Transceiver for In-Package Links in 7-nm FinFET. IEEE J. Solid State Circuits 57(4): 1199-1210 (2022) - 2021
- [c22]Chi Fung Poon, Wenfeng Zhang, Junho Cho, Shaojun Ma, Yipeng Wang, Ying Cao, Asma Laraba, Eugene Ho, Winson Lin, Zhaoyin Daniel Wu, Kee Hian Tan, Parag Upadhyaya, Yohan Frans:
A 1.24pJ/b 112Gb/s (870Gbps/mm) Transceiver for In-package Links in 7nm FinFET. VLSI Circuits 2021: 1-2
2010 – 2019
- 2019
- [j8]Parag Upadhyaya, Chi Fung Poon, Siok-Wei Lim, Junho Cho, Arianne Roldan, Wenfeng Zhang, Jin Namkoong, Toan Pham, Bruce Xu, Winson Lin, Hongtao Zhang, Nakul Narang, Kee Hian Tan, Geoff Zhang, Yohan Frans, Ken Chang:
A Fully Adaptive 19-58-Gb/s PAM-4 and 9.5-29-Gb/s NRZ Wireline Transceiver With Configurable ADC in 16-nm FinFET. IEEE J. Solid State Circuits 54(1): 18-28 (2019) - 2018
- [c21]Parag Upadhyaya, Chi Fung Poon, Siok-Wei Lim, Junho Cho, Arianne Roldan, Wenfeng Zhang, Jin Namkoong, Toan Pham, Bruce Xu, Winson Lin, Hongtao Zhang, Nakul Narang, Kee Hian Tan, Geoff Zhang, Yohan Frans, Ken Chang:
A fully adaptive 19-to-56Gb/s PAM-4 wireline transceiver with a configurable ADC in 16nm FinFET. ISSCC 2018: 108-110 - [c20]Didem Turker, Ade Bekele, Parag Upadhyaya, Bob Verbruggen, Ying Cao, Shaojun Ma, Christophe Erdmann, Brendan Farley, Yohan Frans, Ken Chang:
A 7.4-to-14GHz PLL with 54fsrms jitter in 16nm FinFET for integrated RF-data-converter SoCs. ISSCC 2018: 378-380 - [c19]Kee Hian Tan, Ping-Chuan Chiang, Yipeng Wang, Haibing Zhao, Arianne Roldan, Hongyuan Zhao, Nakul Narang, Siok-Wei Lim, Declan Carey, Sai Lalith Chaitanya Ambatipudi, Parag Upadhyaya, Yohan Frans, Ken Chang:
A 112-GB/S PAM4 Transmitter in 16NM FinFET. VLSI Circuits 2018: 45-46 - [c18]James Hudner, Declan Carey, Ronan Casey, Kay Hearne, Pedro Wilson de Abreu Farias Neto, Ilias Chlis, Marc Erett, Chi Fung Poon, Asma Laraba, Hongtao Zhang, Sai Lalith Chaitanya Ambatipudi, David Mahashin, Parag Upadhyaya, Yohan Frans, Ken Chang:
A 112GB/S PAM4 Wireline Receiver Using a 64-Way Time-Interleaved SAR ADC in 16NM FinFET. VLSI Circuits 2018: 47-48 - [c17]Jay Im, Stanley Chen, Dave Freitas, Adam Chou, Lei Zhou, Ian Zhuang, Tim Cronin, David Mahashin, Winson Lin, Kok Lim Chan, Hongyuan Zhao, Kee Hian Tan, Ade Bekele, Didem Turker, Parag Upadhyaya, Yohan Frans, Ken Chang:
A 0.5-28GB/S Wireline Tranceiver with 15-Tap DFE and Fast-Locking Digital CDR in 7NM FinFET. VLSI Circuits 2018: 145-146 - 2017
- [j7]Yohan Frans, Jaewook Shin, Lei Zhou, Parag Upadhyaya, Jay Im, Vassili Kireev, Mohamed Elzeftawi, Hiva Hedayati, Toan Pham, Santiago Asuncion, Chris Borrelli, Geoff Zhang, Hongtao Zhang, Ken Chang:
A 56-Gb/s PAM4 Wireline Transceiver Using a 32-Way Time-Interleaved SAR ADC in 16-nm FinFET. IEEE J. Solid State Circuits 52(4): 1101-1110 (2017) - [j6]Marc Erett, James Hudner, Declan Carey, Ronan Casey, Kevin Geary, Kay Hearne, Pedro Neto, Thomas Mallard, Vikas Sooden, Mark Smyth, Yohan Frans, Jay Im, Parag Upadhyaya, Wenfeng Zhang, Winson Lin, Bruce Xu, Ken Chang:
A 0.5-16.3 Gbps Multi-Standard Serial Transceiver With 219 mW/Channel in 16-nm FinFET. IEEE J. Solid State Circuits 52(7): 1783-1797 (2017) - [j5]Kok Lim Chan, Kee Hian Tan, Yohan Frans, Jay Im, Parag Upadhyaya, Siok-Wei Lim, Arianne Roldan, Nakul Narang, Chin Yang Koay, Hongyuan Zhao, Ping-Chuan Chiang, Ken Chang:
A 32.75-Gb/s Voltage-Mode Transmitter With Three-Tap FFE in 16-nm CMOS. IEEE J. Solid State Circuits 52(10): 2663-2678 (2017) - [j4]Jay Im, Dave Freitas, Arianne Roldan, Ronan Casey, Stanley Chen, Adam Chou, Tim Cronin, Kevin Geary, Scott McLeod, Lei Zhou, Ian Zhuang, Jaeduk Han, Sen Lin, Parag Upadhyaya, Geoff Zhang, Yohan Frans, Ken Chang:
A 40-to-56 Gb/s PAM-4 Receiver With Ten-Tap Direct Decision-Feedback Equalization in 16-nm FinFET. IEEE J. Solid State Circuits 52(12): 3486-3502 (2017) - [c16]Jay Im, Dave Freitas, Arianne Roldan, Ronan Casey, Stanley Chen, Adam Chou, Tim Cronin, Kevin Geary, Scott McLeod, Lei Zhou, Ian Zhuang, Jaeduk Han, Sen Lin, Parag Upadhyaya, Geoff Zhang, Yohan Frans, Ken Chang:
6.3 A 40-to-56Gb/s PAM-4 receiver with 10-tap direct decision-feedback equalization in 16nm FinFET. ISSCC 2017: 114-115 - 2016
- [j3]Yohan Frans, Scott McLeod, Hiva Hedayati, Mohamed Elzeftawi, Jin Namkoong, Winson Lin, Jay Im, Parag Upadhyaya, Ken Chang:
A 40-to-64 Gb/s NRZ Transmitter With Supply-Regulated Front-End in 16 nm FinFET. IEEE J. Solid State Circuits 51(12): 3167-3177 (2016) - [c15]Kok Lim Chan, Kee Hian Tan, Yohan Frans, Jay Im, Parag Upadhyaya, Siok-Wei Lim, Arianne Roldan, Nakul Narang, Chin Yang Koay, Hongyuan Zhao, Ken Chang:
A 32.75-Gb/s voltage mode transmitter with 3-tap FFE in 16nm CMOS. A-SSCC 2016: 233-236 - [c14]Marc Erett, James Hudner, Declan Carey, Ronan Casey, Kevin Geary, Kay Hearne, Pedro Neto, Thomas Mallard, Vikas Sooden, Mark Smyth, Yohan Frans, Jay Im, Parag Upadhyaya, Wenfeng Zhang, Winson Lin, Bruce Xu, Ken Chang:
A 0.5-16.3Gbps multi-standard serial transceiver with 219mW/channel in 16nm FinFET. ESSCIRC 2016: 297-300 - [c13]Yohan Frans, Scott McLeod, Hiva Hedayati, Mohamed Elzeftawi, Jin Namkoong, Winson Lin, Jay Im, Parag Upadhyaya, Ken Chang:
3.7 A 40-to-64Gb/s NRZ transmitter with supply-regulated front-end in 16nm FinFET. ISSCC 2016: 68-70 - [c12]Yohan Frans, Mohamed Elzeftawi, Hiva Hedayati, Jay Im, Vassili Kireev, Toan Pham, Jaewook Shin, Parag Upadhyaya, Lei Zhou, Santiago Asuncion, Chris Borrelli, Geoff Zhang, Hongtao Zhang, Ken Chang:
A 56Gb/s PAM4 wireline transceiver using a 32-way time-interleaved SAR ADC in 16nm FinFET. VLSI Circuits 2016: 1-2 - [c11]Mayank Raj, Parag Upadhyaya, Yohan Frans, Ken Chang:
A 7-to-18.3GHz compact transformer based VCO in 16nm FinFET. VLSI Circuits 2016: 1-2 - [c10]Parag Upadhyaya, Ade Bekele, Didem Turkur Melek, Haibing Zhao, Jay Im, Junho Cho, Kee Hian Tan, Scott McLeod, Stanley Chen, Wenfeng Zhang, Yohan Frans, Ken Chang:
A fully-adaptive wideband 0.5-32.75Gb/s FPGA transceiver in 16nm FinFET CMOS technology. VLSI Circuits 2016: 1-2 - 2015
- [j2]Yohan Frans, Declan Carey, Marc Erett, Hesam Amir Aslanzadeh, Wayne Y. Fang, Didem Turker, Anup P. Jose, Adebabay Bekele, Jay Im, Parag Upadhyaya, Zhaoyin Daniel Wu, Kenny C.-H. Hsieh, Jafar Savoj, Ken Chang:
A 0.5-16.3 Gb/s Fully Adaptive Flexible-Reach Transceiver for FPGA in 20 nm CMOS. IEEE J. Solid State Circuits 50(8): 1932-1944 (2015) - [c9]Parag Upadhyaya, Jafar Savoj, Fu-Tai An, Ade Bekele, Anup P. Jose, Bruce Xu, Zhaoyin Daniel Wu, Didem Turker, Hesam Amir Aslanzadeh, Hiva Hedayati, Jay Im, Siok-Wei Lim, Stanley Chen, Toan Pham, Yohan Frans, Ken Chang:
3.3 A 0.5-to-32.75Gb/s flexible-reach wireline transceiver in 20nm CMOS. ISSCC 2015: 1-3 - 2014
- [c8]Jafar Savoj, Hesam Amir Aslanzadeh, Declan Carey, Marc Erett, Wayne Fang, Yohan Frans, Kenny C.-H. Hsieh, Jay Im, Anup P. Jose, Didem Turker, Parag Upadhyaya, Zhaoyin Daniel Wu, Ken Chang:
Wideband flexible-reach techniques for a 0.5-16.3Gb/s fully-adaptive transceiver in 20nm CMOS. CICC 2014: 1-4 - [c7]Jun-Chau Chien, Parag Upadhyaya, Howard Jung, Stanley Chen, Wayne Fang, Ali M. Niknejad, Jafar Savoj, Ken Chang:
2.8 A pulse-position-modulation phase-noise-reduction technique for a 2-to-16GHz injection-locked ring oscillator in 20nm CMOS. ISSCC 2014: 52-53 - 2013
- [j1]Jafar Savoj, Kenny C.-H. Hsieh, Fu-Tai An, J. Gong, Jay Im, Xuewen Jiang, Anup P. Jose, Vassili Kireev, Siok-Wei Lim, Arianne Roldan, D. Z. Turker, Parag Upadhyaya, Zhaoyin Daniel Wu, Ken Chang:
A Low-Power 0.5-6.6 Gb/s Wireline Transceiver Embedded in Low-Cost 28 nm FPGAs. IEEE J. Solid State Circuits 48(11): 2582-2594 (2013) - 2012
- [c6]Jafar Savoj, Kenny C.-H. Hsieh, Parag Upadhyaya, Fu-Tai An, Jay Im, Xuewen Jiang, Jalil Kamali, Kang Wei Lai, Zhaoyin Daniel Wu, Elad Alon, Ken Chang:
Design of high-speed wireline transceivers for backplane communications in 28nm CMOS. CICC 2012: 1-4 - [c5]J. G. Alzate, Parag Upadhyaya, M. Lewis, J. Nath, Y. T. Lin, Kin Wong, S. Cherepov, P. Khalili Amiri, Kang L. Wang, J. Hockel, A. Bur, Gregory P. Carman, S. Bender, Y. Tserkovnyak, J. Zhu, Y.-J. Chen, I. N. Krivorotov, J. Katine, J. Langer, Prasad Shabadi, Santosh Khasanvis, Sankara Narayanan Rajapandian, Csaba Andras Moritz, Alexander Khitun:
Spin wave nanofabric update. NANOARCH 2012: 196-202 - [c4]Jafar Savoj, Kenny C.-H. Hsieh, Parag Upadhyaya, Fu-Tai An, Ade Bekele, Stanley Chen, Xuewen Jiang, Kang Wei Lai, Chi Fung Poon, Aman Sewani, Didem Turker, Karthik Venna, Zhaoyin Daniel Wu, Bruce Xu, Elad Alon, Ken Chang:
A wide common-mode fully-adaptive multi-standard 12.5Gb/s backplane transceiver in 28nm CMOS. VLSIC 2012: 104-105
2000 – 2009
- 2006
- [c3]Mallesh Rajashekharaiah, Parag Upadhyaya, Deuk Hyoun Heo:
Enhanced gm3 cancellation for linearity improvement in CMOS LNAs. ISCAS 2006 - [c2]Le Wang, Parag Upadhyaya, Pinping Sun, Yang Zhang, Deuk Hyoun Heo, Yi-Jan Emery Chen, DongHo Jeong:
A 5.3GHz low-phase-noise LC VCO with harmonic filtering resistor. ISCAS 2006 - 2005
- [c1]Mallesh Rajashekharaiah, Parag Upadhyaya, Deuk Hyoun Heo, Yi-Jan Emery Chen:
A new gain controllable on-chip active balun for 5 GHz direct conversion receiver. ISCAS (5) 2005: 5115-5118
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 2024-07-30 21:34 CEST by the dblp team
all metadata released as open data under CC0 1.0 license
see also: Terms of Use | Privacy Policy | Imprint