Hi! I’m Haifei Wang (王海飞). Welcome to my personal page.
I love physics, mathematics, and electrical engineering & computer science (EECS). Naturally, I’ve gravitated to the intersection of these fields—quantum computing and, more broadly, quantum science.
We’re living through a new era of quantum science, where researchers can control quantum systems with unprecedented precision for real-world applications. Progress now depends not only on deep physical insight, but equally on careful engineering, robust tooling, and scalable systems.
I’m especially interested in embedded systems and hardware–software co-design for scientific instruments (e.g., quantum processors, RF signal chains, time-to-digital converters, arbitrary waveform generators, etc). Quantum engineering often hinges on exquisite timing control. For example, measurement-based quantum computing and time-multiplexed photon sources demand real-time feed-forward with nano- or even sub-nanosecond latency. Cold-atom (AMO) experiments require precisely orchestrated, multi-channel timing sequences. Superconducting quantum processors rely on RF engineering with high-sample-rate ADCs/DACs and flexible digital signal processing. Meeting these requirements typically calls for FPGAs—reconfigurable hardware that offers both low latency and high throughput, which is one of my biggest specialties and interests.
I received my bachelor’s degree from Wuhan University and am currently pursuing a Ph.D. at the National University of Singapore – Centre for Quantum Technologies, supervised by Prof. Weibo Gao. My current work focuses on building reliable control stacks for quantum experiments, including FPGA-based timing, real-time signal processing, and software interfaces that make complex experiments reproducible and scalable.