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Tue 17 Jun | 13:30 - 15:10
207
High-Speed Circuits and Systems for Photonic and Quantum Applications
High-speed circuits are essential to the efficient control and driving of upcoming photonic and quantum systems. This session features a diverse set of papers for such applications. The first paper covers a widely reconfigurable temperature-scalable cryogenic PLL. The second paper covers a low-power correlator targeting communications and compute-in-memory applications. Papers 3 and 4 cover ultra-high-speed drivers for photonic transceivers, designed in FD-SOI CMOS and SiGe BiCMOS respectively. The final paper covers a set of integrated circuits designed in GaAs as an oscilloscope front-end system.
13:30 - 13:50
RTu3C-1 A 19.4-fsRMS Jitter 0.1-to-44GHz Cryo-CMOS Fractional-N CP-PLL Featuring Automatic Bleed Calibration for Quantum Computing
13:50 - 14:10
RTu3C-2 A Low-Power High-Dynamic-Range Analog Correlator Based on Parametric Multiplication and Integration
14:10 - 14:30
RTu3C-3 A 204GS/s 1-to-2 Analog Demultiplexer in 22nm FDSOI CMOS
14:30 - 14:50
RTu3C-4 A 224-Gb/s PAM-4 Linear Distributed Driver for Silicon-Photonic Modulators in SiGe BiCMOS
14:50 - 15:10
RTu3C-5 A ±1V-DC to 20-GHz Front-End Chipset with 1.5-Vpp AC and 0.5-to-1V DC Outputs for Direct Sampling Real-Time Oscilloscopes