Architect, design, and test complex mixed-signal system-on-chip (SoC) and FPGA solutions that interface the microinstruction layer of the quantum computing stack to actual qubits
Generate complex control signals required to drive and read qubit states with precision and reliability
Perform signal integrity analysis and optimization for qubit chips to ensure optimal performance
Apply electromagnetic (EM) modeling and simulation tools for signal integrity and crosstalk analysis
Work in close collaboration with both software/algorithms and qubit development teams to create integrated solutions
Bridge the gap between quantum physics and practical electronic implementation

Bachelor's degree with 4 years of experience, or Master's with 3 years of experience or PhD degree with 1 year of experience in Electrical Engineering or related engineering field
Experience with RF/analog/mixed-signal circuit tape-out completed in an advanced process technology and lab testing
Experience with silicon prototyping flow (design, validation, layout, tape-out, testing)
Experience with architecture, design, implementation, and verification of mixed-signal systems including circuit blocks such as LNAs, Mixers, PAs, PLLs, VCOs, ADCs, DACs
Experience with electromagnetic (EM) modeling and simulation tools and their application to signal integrity/crosstalk analysis for high-speed/high-density on-chip/on-package interconnect
Experience in high-level system design and validation with behavioral models (e.g., Matlab, Verilog, Veriloga, System Verilog, etc.)
Expertise with DSP/signal processing skills
Experience with quantum computing
Expertise for qubit design, fabrication, and control (preferred focus on spin qubits)
Hands-on experience with qubit characterization and control with dilution refrigerators and room lab-grade control electronics

Qubit Control IC Designer

Key skills