Job Description
Join Nexus Future Labs at the forefront of 2026's technological revolution as we pioneer quantum-resistant infrastructure. We're seeking a visionary Quantum Infrastructure Architect to design next-gen systems that secure our digital future while enabling unprecedented computational capabilities. This role blends cutting-edge quantum cryptography with scalable cloud architecture to build the backbone of tomorrow's digital economy.
As a key member of our Innovation Division, you'll collaborate with Nobel laureates and industry pioneers to implement quantum-safe protocols, optimize hybrid quantum-classical workflows, and architect solutions that will power global enterprises through 2030 and beyond. Our Austin campus features state-of-the-art quantum labs and collaborative innovation spaces where breakthrough ideas become reality.
Responsibilities
- Design and implement quantum-resistant cryptographic systems for enterprise-scale infrastructure
- Architect hybrid quantum-classical computing solutions optimizing for speed and security
- Lead development of fault-tolerant quantum networks with 99.999% uptime SLAs
- Integrate emerging quantum technologies with existing cloud ecosystems (AWS/Azure/GCP)
- Develop predictive AI models to forecast quantum computing resource demands
- Establish quantum security protocols exceeding NIST 2026 compliance standards
- Mentor cross-functional teams in quantum computational principles
Qualifications
- PhD in Quantum Computing, Cryptography, or related field with 5+ years industry experience
- Expertise in quantum algorithms (Shor's, Grover's, QAOA) and error correction techniques
- Proven track record designing fault-tolerant systems at petabyte scale
- Certification in quantum cloud platforms (Amazon Braket, Azure Quantum, Google Quantum AI)
- Deep understanding of post-quantum cryptography standards (CRYSTALS-Kyber, SPHINCS+)
- Experience with quantum hardware integration (IBM Quantum, Rigetti, IonQ)
- Published research in quantum security or distributed quantum systems