Job Description
Join QuantLeap Technologies at the forefront of technological revolution as we pioneer quantum computing solutions for 2026 and beyond. As a Quantum Computing Architect, you'll design next-gen quantum systems that redefine computational boundaries. Our state-of-the-art lab in San Francisco offers unparalleled resources to transform theoretical physics into scalable industrial applications. We're seeking visionaries to shape the future of cryptography, AI optimization, and molecular modeling through quantum innovation.
This role combines deep theoretical expertise with hands-on system integration in a collaborative, R&D-driven environment. You'll lead cross-disciplinary teams of physicists, engineers, and software developers to deploy quantum advantage in high-stakes industries. QuantLeap offers competitive equity packages, flexible hybrid work arrangements, and continuous learning opportunities through our Quantum Research Fellowship program.
Responsibilities
- Design scalable quantum computing architectures leveraging superconducting qubits and photonic systems
- Develop error-correction frameworks for fault-tolerant quantum processors
- Integrate quantum accelerators with classical HPC infrastructure
- Lead quantum algorithm optimization for real-world industrial applications
- Collaborate with security teams to post-quantum cryptographic protocols
- Drive quantum cloud platform development for enterprise clients
- Present breakthrough innovations at international quantum symposiums
Qualifications
- PhD in Quantum Physics, Computer Science, or related field with 5+ years industry experience
- Proven expertise in quantum circuit design and gate-level optimization
- Published research in top-tier quantum computing journals (e.g., Nature Quantum)
- Proficiency with quantum programming languages (Q#, Qiskit, Cirq)
- Experience with cryogenic quantum system integration and calibration
- Demonstrated ability to lead complex R&D projects with cross-functional teams
- Strong background in quantum error correction and fault tolerance