Job Description
Join the forefront of technological revolution as Quantum Leap Dynamics seeks a visionary 2026 Quantum Infrastructure Architect to design the next-generation computing backbone for our global quantum network. This pivotal role demands expertise in quantum-resistant cryptography, distributed quantum systems, and edge-computing convergence to build resilient infrastructure for the post-quantum era.
You will lead cross-functional teams to architect scalable quantum-safe systems, integrate emerging quantum hardware with classical networks, and pioneer hybrid computing paradigms. If you're passionate about solving humanity's most complex computational challenges and shaping the digital landscape of tomorrow, this is your calling.
Responsibilities
- Design quantum-resistant network architectures capable of withstanding cryptographic threats beyond 2025
- Develop hybrid quantum-classical computing frameworks for enterprise-scale deployment
- Lead implementation of quantum-secure communication protocols across global infrastructure
- Architect edge-computing nodes optimized for quantum acceleration and real-time processing
- Establish governance frameworks for quantum data integrity and zero-trust architectures
- Partner with hardware teams to co-design quantum-classical interfaces
- Drive quantum security audits and compliance for critical infrastructure systems
Qualifications
- PhD in Quantum Computing, Cryptography, or related field with 8+ years of infrastructure architecture experience
- Expertise in quantum-resistant algorithms (NIST PQC standards) and lattice-based cryptography
- Proven track record designing distributed systems for terascale computing environments
- Deep knowledge of quantum hardware architectures (superconducting, photonic, trapped ions)
- Certification in cloud quantum platforms (IBM Quantum, AWS Braket, Azure Quantum)
- Experience with zero-trust network implementation and quantum key distribution
- Published research in quantum security or topological quantum computing preferred