Principal Quantum Systems Architect

Microsoft Microsoft · Big Tech · Redmond, WA +1 · Quantum Engineering

Seeking a Principal Quantum Systems Architect to define the architecture of scalable classical control and readout systems for large-scale quantum computing. This role focuses on system design at the quantum-classical interface, including compute platforms, communication fabrics, synchronization, and signal-processing frameworks. This is a strategic technical leadership role, shaping long-term architecture while guiding validation and integration across the stack.

What you'd actually do

  1. Define the system architecture for scalable quantum control and readout across room-temperature and cryogenic domains
  2. Drive architectural direction for heterogeneous compute platforms supporting control, measurement, and feedback workloads
  3. Establish system partitioning and co-design strategies across hardware, firmware, software, and quantum systems
  4. Define communication, synchronization, and dataflow architectures enabling deterministic, low-latency operation at scale
  5. Lead system-level trade-offs and guide platform evolution toward scalable, production-ready quantum systems

Skills

Required

  • Doctorate in Physics, Engineering, or related field AND 6+ years experience in industry or in a research and development environment
  • Master's Degree in Physics, Engineering, or related field AND 10+ years experience in industry or in a research and development environment
  • Bachelor's Degree in Physics, Engineering, or related field AND 12+ years experience in industry or in a research and development environment
  • equivalent experience
  • Ability to meet Microsoft, customer, and/or government security screening requirements
  • Microsoft Cloud Background Check
  • Citizenship & Citizenship Verification
  • Familiarity with basic AI tools such as Office CoPilot, GitHub CoPilot, or Chat GPT
  • Ability to work in an “AI-first” environment using modern AI tools to accelerate discovery through both hardware and software development

Nice to have

  • Proven experience designing complex compute or signal-processing architectures (e.g., SoCs, distributed systems, accelerators, networking fabrics)
  • Proficient understanding of system architecture fundamentals (compute, memory, interconnects, data movement, HW/SW partitioning)
  • Experience driving architectural trade-offs across performance, scalability, power, and reliability
  • Demonstrated leadership in cross-functional hardware/software co-design initiatives
  • Experience with RF signal processing, instrumentation, or measurement systems
  • Familiarity with quantum control, readout, or error correction concepts
  • Experience with FPGA, ASIC, or custom accelerator technologies
  • Exposure to cryogenic or constrained computing environments
  • Experience defining scalable architectures for emerging compute platforms
  • Track record of architecturally guiding the delivery of large-scale systems from concept through production

What the JD emphasized

  • scalable classical control and readout systems for large-scale quantum computing
  • system design at the quantum-classical interface
  • shaping long-term architecture
  • validation and integration across the stack
  • scalable quantum control and readout across room-temperature and cryogenic domains
  • heterogeneous compute platforms supporting control, measurement, and feedback workloads
  • system partitioning and co-design strategies across hardware, firmware, software, and quantum systems
  • communication, synchronization, and dataflow architectures enabling deterministic, low-latency operation at scale
  • system-level trade-offs and guide platform evolution toward scalable, production-ready quantum systems