A 40 nm Cryo-CMOS Homodyne-Demodulation Readout SoC for Superconducting Qubits

被引:0
|
作者
Minn, Donggyu [1 ]
Kang, Kiseo [1 ]
Lee, Jaeho [1 ]
Bae, Seongchan [1 ]
Kim, Byungjun [1 ]
Lee, Jaehoon [1 ]
Sim, Jae-Yoon [1 ]
机构
[1] Pohang Univ Sci & Technol, Dept Elect & Elect Engn, Pohang 37673, South Korea
来源
IEEE TRANSACTIONS ON CIRCUITS AND SYSTEMS I-REGULAR PAPERS | 2024年
基金
新加坡国家研究基金会;
关键词
Qubit; Signal to noise ratio; Receivers; Radio frequency; Gain; Frequency division multiplexing; Quantum computing; HEMTs; Superconducting microwave devices; Demodulation; Cryo-CMOS; homodyne; quantum computer; qubit; readout; superconducting; SNR; state discrimination; QUANTUM; MANIPULATION;
D O I
10.1109/TCSI.2024.3518472
中图分类号
TM [电工技术]; TN [电子技术、通信技术];
学科分类号
0808 ; 0809 ;
摘要
This paper presents a cryo-CMOS readout SoC based on a homodyne demodulation architecture with an integrating receiver. The homodyne receiver module for each qubit employs a dedicated local LO generator for a coherent detection under a frequency-division multiplexed multi-qubit readout environment. To mitigate the conventional issues of the homodyne demodulation in wireless communications, such as 1/f noise and DC offset by LO leakage, the proposed receiver incorporates effective calibration schemes by utilizing the specific operating conditions of the superconducting qubits. The implemented chip in 40 nm CMOS is tested at 4 K in a dilution refrigerator under an emulated SNR environment of superconducting qubit readout, i.e. $-$ 70 dBm input with a noise floor of $-$ 148 dBm/Hz. Measurement shows that circuit-only fidelity reaches 99% in 200 ns with an ideal single tone RF input. A back-to-back test using an on-chip 4-tone transmitter shows a 93 % circuit-only fidelity with 400 ns integration.
引用
收藏
页数:14
相关论文
共 50 条
  • [31] A Cryo-CMOS DAC-based 40 Gb/s PAM4 Wireline Transmitter for Quantum Computing Applications
    Fakkel, Niels
    Mortazavi, Mohsen
    Overwater, Ramon
    Sebastiano, Fabio
    Babaie, Masoud
    2023 IEEE RADIO FREQUENCY INTEGRATED CIRCUITS SYMPOSIUM, RFIC, 2023, : 257 - 260
  • [32] A Cryo-CMOS DAC-Based 40-Gb/s PAM4 Wireline Transmitter for Quantum Computing
    Fakkel, Niels
    Mortazavi, Mohsen
    Overwater, Ramon W. J.
    Sebastiano, Fabio
    Babaie, Masoud
    IEEE JOURNAL OF SOLID-STATE CIRCUITS, 2024, 59 (05) : 1433 - 1446
  • [33] A Scalable Cryo-CMOS 2-to-20GHz Digitally Intensive Controller for 4x32 Frequency Multiplexed Spin Qubits/Transmons in 22nm FinFET Technology for Quantum Computers
    Patra, Bishnu
    van Dijk, Jeroen P. G.
    Subramanian, Sushil
    Corna, Andrea
    Xue, Xiao
    Jeon, Charles
    Sheikh, Farhana
    Juarez-Hernandez, Esdras
    Esparza, Brando Perez
    Rampurawala, Huzaifa
    Carlton, Brent
    Samkharadze, Nodar
    Ravikumar, Surej
    Nieva, Carlos
    Kim, Sungwon
    Lee, Hyung-Jin
    Sammak, Amir
    Scappucci, Giordano
    Veldhorst, Menno
    Vandersypen, Lieven M. K.
    Babaie, Masoud
    Sebastiano, Fabio
    Charbon, Edoardo
    Pellerano, Stefano
    2020 IEEE INTERNATIONAL SOLID- STATE CIRCUITS CONFERENCE (ISSCC), 2020, : 304 - +
  • [34] Sub-10-GHz Cryo-CMOS LNAs Achieving Up to 0.07-dB Average NF Thanks to Back Biasing for Qubit Readout in 28-nm FD-SOI
    Puyal, V
    Berlingard, Q.
    Lugo-Alvarez, J.
    Blampey, B.
    Casse, M.
    Belot, D.
    2024 IEEE/MTT-S INTERNATIONAL MICROWAVE SYMPOSIUM, IMS 2024, 2024, : 870 - 873
  • [35] A Cryo-CMOS Low-Power Semi-Autonomous Transmon Qubit State Controller in 14-nm FinFET Technology
    Chakraborty, Sudipto
    Frank, David J.
    Tien, Kevin
    Rosno, Pat
    Yeck, Mark
    Glick, Joseph A.
    Robertazzi, Raphael
    Richetta, Ray
    Bulzacchelli, John F.
    Underwood, Devin
    Ramirez, Daniel
    Yilma, Dereje
    Davies, Andrew
    Joshi, Rajiv, V
    Chambers, Shawn D.
    Lekuch, Scott
    Inoue, Ken
    Wisnieff, Dorothy
    Baks, Christian W.
    Bethune, Donald S.
    Timmerwilke, John
    Fox, Thomas
    Song, Peilin
    Johnson, Blake R.
    Gaucher, Brian P.
    Friedman, Daniel J.
    IEEE JOURNAL OF SOLID-STATE CIRCUITS, 2022, 57 (11) : 3258 - 3273
  • [36] Design of the low area monotonic trim DAC in 40 nm CMOS technology for pixel readout chips
    Drozd, A.
    Szczygiel, R.
    Maj, P.
    Satlawa, T.
    Grybos, P.
    JOURNAL OF INSTRUMENTATION, 2014, 9
  • [37] A 40nm CMOS SoC for Real-Time Dysarthric Voice Conversion of Stroke Patients
    Lin, Tay-Jyi
    Liao, Chen-Zong
    Hu, You-Jia
    Hsu, Wei-Cheng
    Wu, Zheng-Xian
    Wang, Shao-Yu
    Huang, Chun-Ming
    Lai, Ying-Hui
    Yeh, Chingwei
    Wang, Jinn-Shyan
    27TH ASIA AND SOUTH PACIFIC DESIGN AUTOMATION CONFERENCE, ASP-DAC 2022, 2022, : 7 - 8
  • [38] Enhancement in Capacitance and Transconductance in 90 nm nFETs with HfO2-ZrO2 Superlattice Gate Stack for Energy-efficient Cryo-CMOS
    Li, W.
    Wang, L. C.
    Cheema, S. S.
    Shanker, N.
    Hu, C.
    Salahuddin, S.
    2022 INTERNATIONAL ELECTRON DEVICES MEETING, IEDM, 2022,
  • [39] Measurements of Matching and Noise Performance of a Prototype Readout Chip in 40 nm CMOS Process for Hybrid Pixel Detectors
    Maj, P.
    Grybos, P.
    Szczygiel, R.
    Kmon, P.
    Kleczek, R.
    Drozd, A.
    Otfinowski, P.
    Deptuch, G.
    IEEE TRANSACTIONS ON NUCLEAR SCIENCE, 2015, 62 (01) : 359 - 367
  • [40] A 7-10b Programmable Cryo-CMOS TI-SAR ADC for Multichannel Qubit Readout with On-Chip Background Inter-Channel Mismatch Calibrations
    Lee, Jaeho
    Kang, Kiseo
    Minn, Donggyu
    Sim, Jae-Yoon
    IEEE 49TH EUROPEAN SOLID STATE CIRCUITS CONFERENCE, ESSCIRC 2023, 2023, : 169 - 172
12345