Job Description
Join the forefront of technological revolution as a Quantum Infrastructure Architect 2026 at Nexus Quantum Dynamics. We're pioneering the next generation of quantum computing systems that will redefine computational boundaries. This role requires a visionary leader to architect scalable quantum infrastructure while bridging classical and quantum paradigms. You'll collaborate with Nobel-caliber physicists and world-class engineers to build systems capable of solving humanity's most complex challenges.
Our San Francisco headquarters offers an unparalleled environment for innovation, with state-of-the-art labs and collaborative workspaces designed for breakthrough thinking. We provide competitive equity packages, unlimited PTO, and comprehensive benefits including top-tier health coverage and relocation assistance for exceptional candidates.
Responsibilities
- Design and implement fault-tolerant quantum computing architectures supporting 10,000+ qubit systems
- Develop hybrid quantum-classical workflows for enterprise-scale optimization problems
- Lead integration of quantum error correction protocols with classical supercomputing clusters
- Architect cryogenic control systems supporting sub-10 millikelvin operating environments
- Optimize quantum communication networks with quantum key distribution (QKD) protocols
- Establish real-time monitoring frameworks for quantum system performance metrics
- Collaborate with security teams to develop quantum-resistant cryptographic frameworks
- Document quantum system architectures and publish research in peer-reviewed journals
Qualifications
- PhD in Quantum Computing, Physics, or Computer Science (or equivalent experience)
- 5+ years designing large-scale distributed systems with sub-millisecond latency requirements
- Expertise in quantum algorithms and quantum error correction codes (surface, color, LDPC)
- Proficiency in quantum programming languages (Q#, Qiskit, Cirq) and circuit optimization
- Experience with cryogenic engineering and superconducting qubit control systems
- Strong background in topological quantum computing and anyonic braiding
- Published research in quantum computing or related field (arXiv, IEEE, Nature)
- Ability to translate complex quantum concepts into actionable technical specifications