師資
呼喚,,博士畢業(yè)于美國華盛頓州立大學,,曾就職于美國Skyworks Solutions及德國醫(yī)療設備公司Biotronik/MSEI,,于2022年加入南方科技大學深港微電子學院,。他主要從事超低功耗模擬/混合信號集成電路及可穿戴/植入集成電路與系統(tǒng)設計等相關(guān)領(lǐng)域的研究,,其中主要包括應用于生物醫(yī)療及物聯(lián)網(wǎng)的超低功耗模擬前端及數(shù)據(jù)轉(zhuǎn)換器,、高能效收發(fā)技術(shù),、及面向智能物聯(lián)網(wǎng)的存內(nèi)計算電路等,。他已有10余篇論文發(fā)表在IEEE國際集成電路頂級期刊和會議(包括TMTT,,TCAS-I&II,,RFIC,BioCAS等),,同時擔任多個國際頂級期刊及會議的論文審稿人(包括JSSC,,TBioCAS,TCAS-I&II等),。
招聘信息
呼喚博士課題組常年招聘博士后,、科研助理,招收博士生,、碩士生,、本科實習生,有意應聘者請將簡歷(格式PDF)發(fā)送至呼喚博士郵箱,,以“招聘崗位_應聘者姓名”為題,。課題組網(wǎng)站:https://faculty.sustech.edu.cn/huh3/。
聯(lián)系方式
電郵:[email protected]
教育經(jīng)歷
2021年,,美國華盛頓州立大學,,博士學位
2015年,美國俄勒岡州立大學,,碩士學位
2013年,,電子科技大學,學士學位
工作經(jīng)歷
2022年1月至今,,南方科技大學,,助理教授
2021年3月至10月,美國Skyworks Solutions,,主管工程師
2018年6月至12月,,德國Biotronik/美國MSEI,集成電路研發(fā)實習生
研究簡介
超低功耗低壓傳感器接口電路
面向醫(yī)用/物聯(lián)網(wǎng)的高能效收發(fā)機電路與架構(gòu)
應用于存內(nèi)計算的模擬及混合信號集成電路
所獲榮譽
深圳市“鵬城孔雀”特聘C類人才,,2022
RFIC Best Student Paper Award Nomination, 2020
Alaska Airline Travel Award, 2018
WSU Grand Challenges Fellowship Award, 2016-2017
OSU Laurels Scholarship Award, 2014-2015
代表文章
1. H. Hu and S. Gupta, “A 0.22μW single-bit VCO-based time-domain sensor-to-digital front-end with reduced supply sensitivity,” IEEE TCAS-I, vol. 69, no. 1, pp. 148-159, Jan. 2022,
2. H. Hu, C.C. Lin, and S. Gupta, “A 197.1μW wireless sensor SoC with an energy-efficient analog front-end and a harmonic injection-locked OOK TX,” IEEE TCAS-I, vol. 68, no. 6, pp. 2444-2456, June 2021.
3. H. Hu, T. Islam, A. Kostyukova, S. Ha, and S. Gupta, “From battery enabled to natural harvesting: enzymatic biofuel cell assisted integrated analog front-end in 130 nm CMOS for Long-Term Monitoring,” IEEE TCAS-I, vol. 66, no. 2, pp. 534-545, Feb. 2019.
4. H. Hu, T. Islam, C.C. Lin, A. Kostyukova, S. Ha, and S. Gupta, “A 3.51μW 0.31μVrms biofuel cell enabled integrated analog CMOS front-end in 130nm CMOS,” Proc. IEEE BioCAS, Oct. 2018, pp. 1-4.
5. H. Hu, M. Schiavenato, and S. Gupta, “An 143nW relaxation oscillator for ultra-low power biomedical systems,” Proc. IEEE Sensors Conf., Nov. 2016, pp. 1-3.
6. H. Hu, A. Delane, M. Schiavenato, and S. Gupta, “3D UWB localization-based infant pain assessment system in incubators using dynamic averaging algorithm and ranging,” 2016 BMES/FDA Frontiers in Medical Devices Conf., May 2016.
7. Q. Xu, C.C. Lin, H. Hu, S. Gupta, “Common-Mode Drift Resilient Ring-Oscillator-Based Time-Domain Filter for Next-Generation Wireless”, IEEE MWSCAS, Aug. 2023.
8. C.C. Lin, Q. Xu, H. Hu, S. Gupta, “Design Considerations of Time-interleaved Discrete-time Beamformers Toward Wideband Communications”, IEEE TCAS-II, Early Access.
9. C. Nie, C. Tang, J. Lin, H. Hu, C. Lv, T. Cao, W. Zhang, L. Jiang, X. Liang, W. Qian, Y. Sun, and Z. He, “VSPIM: SRAM Processing-in-Memory DNN Acceleration via Vector-Scalar Operations”, IEEE TC, Early Access.
10. C. Nie, J. Lin, H. Hu, J. Li, X. Liang, and Z. He, “Energy-Efficient Hybrid-RAM with Hybrid Bit-Serial based VMM Support,” ACM GLSVLSI, June 2021.
11. C.C. Lin, H. Hu, and S. Gupta, “Improved Performance Trade-Offs in Harmonic Injection-Locked ULP TX for Sub-GHz Radios,” IEEE TMTT, vol. 69, no. 6, pp. 2885-2898, June. 2021.
12. C.C. Lin*, H. Hu*, and S. Gupta, “Spur minimization techniques for ultra-low-power injection-locked transmitters,” IEEE TCAS-I, vol. 67, no. 11, pp. 3643-3655, Nov. 2020. (* - Equally contributed author)
13. C.C. Lin*, H. Hu*, and S. Gupta, “A 66.97pJ/bit 0.0413mm2 self-aligned PLL-calibrated harmonic-injection-locked TX with >62dBc spur suppression for IoT applications,” Proc. IEEE RFIC, Aug. 2020, pp. 1-4. (* - Equally contributed author)
14. S.K. Govindan, H. Hu, and S. Gupta, “A 25.6 μW 8.97 ps period jitter phase-locked relaxation oscillator with sub-1μs start-up for low power IoT,” Proc. IEEE ISCAS, May 2019, pp. 1-5.
15. A. Rahimi, H. Hu, K. Sivakumar, and S. Gupta, “Energy-efficient serialized Walsh-Hadamard transform based feature-extraction for information-aware compressive sensing,” Proc. IEEE ISCAS, May 2018, pp. 1-5.
16. A. Rahimi, H. Hu, and S. Gupta, “A compressive sensing information aware analog front end for IoT sensors using adaptive clocking techniques,” Proc. IEEE MWSCAS, Aug. 2017, pp. 325-328.
K. Shashank, S. A. Ay, A. Fulzele, R. C. Ram, H. Hu, S. Gupta, “Precise Placement of Precordial Electrodes with +/?0.5 cm Accuracy for Recording ECG in Self-operable Diagnostic Devices”, Proc. AHFE, June 2017, pp. 529-539.