题目/Title：A Polar-Modulation-Based Cryogenic Qubit State Controller in 28nm Bulk CMOS

作者/Author：
                        Yanshu Guo, Yaoyu Li, Wenqiang Huang, Songyao Tan, Qichun Liu, Tiefu Li, Ning Deng, Zhihua Wang, Yuanjin Zheng, Hanjun Jiang

会议/Conference：ISSCC 2023

地点/Location：San Francisco, CA, USA

年份/Issue Date：2023.19-23 Feb.

页码/pages：pp.508-510

摘要/Abstract：

In today's mainstream superconducting quantum computing platforms in a dilution refrigerator, the qubits work at a cryogenic temperature (CT) of a few tens of mK, while the qubit controller hardware works on plates with temperature ranging from a few K to room temperature (RT). The highly-integrated cryo-CMOS qubit controller ASIC that can fully work at 3-4K has been proven to be the most feasible way to scale down the quantum computing system [1–5]. In [1], a pulse modulator is implemented with a limited qubit driving capability, which can only generate fixed length symmetric driving pulse. The controllers in [2], [3] generated the RF driving pulse with a frequency division multiplexing (FDM) mode, with the power dissipation of 192mW/qubit and 46.5mW/qubit, respectively. In [4], a local oscillator (LO) was included to improve the controller integration level, and the chip power consumption was 24.1mW/qubit. An arbitrary waveform generation (AWG) functionality digital design was presented in [5] with a power consumption of 23.1mW/qubit. Nevertheless, with continuously increasing number of qubits to integrate, it remains as one of the major tasks to further reduce the power consumption and size of controller.