Linearization techniques for CMOS low noise amplifiers: A tutorial H Zhang, E Sánchez-Sinencio
IEEE Transactions on Circuits and Systems I: Regular Papers 58 (1), 22-36, 2010
401 2010 A low-power, linearized, ultra-wideband LNA design technique H Zhang, X Fan, ES Sinencio
IEEE Journal of solid-state circuits 44 (2), 320-330, 2009
324 2009 A noise reduction and linearity improvement technique for a differential cascode LNA X Fan, H Zhang, E Sánchez-Sinencio
IEEE Journal of Solid-State Circuits 43 (3), 588-599, 2008
250 2008 Transceiver including a high latency communication channel and a low latency communication channel H Zhang, M Khanpour, J Cao, C Liu, A Momtaz
US Patent 9,306,621, 2016
121 2016 3.2 A 320mW 32Gb/s 8b ADC-based PAM-4 analog front-end with programmable gain control and analog peaking in 28nm CMOS D Cui, H Zhang, N Huang, A Nazemi, B Catli, HG Rhew, B Zhang, ...
2016 IEEE International Solid-State Circuits Conference (ISSCC), 58-59, 2016
92 2016 Hybrid low-power wide-area mesh network for IoT applications X Jiang, H Zhang, EAB Yi, N Raghunathan, C Mousoulis, S Chaterji, ...
IEEE Internet of Things Journal 8 (2), 901-915, 2020
90 2020 29.2 A transmitter and receiver for 100Gb/s coherent networks with integrated 4× 64GS/s 8b ADCs and DACs in 20nm CMOS J Cao, D Cui, A Nazemi, T He, G Li, B Catli, M Khanpour, K Hu, T Ali, ...
2017 IEEE International Solid-State Circuits Conference (ISSCC), 484-485, 2017
83 2017 Dependability in edge computing S Bagchi, MB Siddiqui, P Wood, H Zhang
Communications of the ACM 63 (1), 58-66, 2019
64 2019 A 780 mW 4 28 Gb/s Transceiver for 100 GbE Gearbox PHY in 40 nm CMOS U Singh, A Garg, B Raghavan, N Huang, H Zhang, Z Huang, A Momtaz, ...
IEEE Journal of Solid-State Circuits 49 (12), 3116-3129, 2014
48 2014 A 195mW/55mW dual-path receiver AFE for multistandard 8.5-to-11.5 Gb/s serial links in 40nm CMOS B Zhang, A Nazemi, A Garg, N Kocaman, MR Ahmadi, M Khanpour, ...
2013 IEEE International Solid-State Circuits Conference Digest of Technical …, 2013
41 2013 Context-aware collaborative intelligence with spatio-temporal in-sensor-analytics for efficient communication in a large-area iot testbed B Chatterjee, DH Seo, S Chakraborty, S Avlani, X Jiang, H Zhang, ...
IEEE Internet of Things Journal 8 (8), 6800-6814, 2020
30 2020 W, Wang Y‐Y, et al L Zhang
Monge-Ampere flow for generative modeling. CoRR, abs/1809.10188, 2018
27 * 2018 Transceiver including a high latency communication channel and a low latency communication channel H Zhang, M Khanpour, J Cao, C Liu, A Momtaz
US Patent 8,873,606, 2014
24 2014 Clock generator for use in a time-interleaved ADC and methods for use therewith H Zhang, D Cui, J Cao
US Patent 8,902,094, 2014
22 2014 A 40 nm CMOS 195 mW/55 mW dual-path receiver AFE for multi-standard 8.5–11.5 Gb/s serial links B Zhang, A Nazemi, A Garg, N Kocaman, MR Ahmadi, M Khanpour, ...
IEEE Journal of Solid-State Circuits 50 (2), 426-439, 2014
21 2014 Friend or foe: Strong consistency vs. overload in high-availability distributed systems and SDN R Hanmer, L Jagadeesan, V Mendiratta, H Zhang
2018 IEEE International Symposium on Software Reliability Engineering …, 2018
18 2018 基于人类视觉系统的图像感知哈希算法 张慧, 张海滨, 李琼, 牛夏牧
电子学报 36 (S1), 30, 2008
17 2008 杭州湾滩涂湿地鱼类种类组成和多样性季节变化 贾兴焕, 张衡, 蒋科毅, 吴明
应用生态学报 21 (12), 3248-3254, 2010
13 2010 An 182mW 1-60Gb/s configurable PAM-4/NRZ transceiver for large scale ASIC integration in 7nm FinFET technology N Kocaman, U Singh, B Raghavan, A Lyer, K Thasari, S Surana, JW Jung, ...
2022 IEEE International Solid-State Circuits Conference (ISSCC) 65, 120-122, 2022
12 2022 Minimum current/area implementation of cyclic ADC H Zhang, Q Li, E Sanchez-Sinencio
Electronics letters 45 (7), 1, 2009
12 2009