Job Description
Join Nexus Dynamics Inc. at the forefront of technological evolution as we pioneer the next generation of quantum computing infrastructure. We're seeking a visionary Quantum Systems Architect to design and implement revolutionary systems that will redefine industries by 2026. This role offers unparalleled opportunity to shape the future of computational science while working with world-class researchers in Austin's thriving tech ecosystem.
Our ideal candidate thrives at the intersection of theoretical physics and practical engineering, possessing the unique ability to translate complex quantum algorithms into scalable, real-world solutions. You'll collaborate with multidisciplinary teams to architect fault-tolerant quantum processors, optimize quantum-classical hybrid systems, and develop novel error-correction protocols.
Responsibilities
- Design fault-tolerant quantum computing architectures with >1000-qubit scalability
- Develop hybrid quantum-classical system integration frameworks
- Lead quantum algorithm optimization for practical industrial applications
- Create quantum error-correction protocols achieving <10^-9 logical error rates
- Architect quantum-safe cybersecurity infrastructure for 2026 deployment
- Partner with research teams to commercialize breakthrough quantum technologies
- Define quantum system performance benchmarks and validation methodologies
Qualifications
- PhD in Quantum Physics, Computer Science, or related field (MS with exceptional experience)
- 5+ years architecting complex quantum or high-performance computing systems
- Expertise in quantum error correction and fault-tolerant design principles
- Proficiency with quantum programming languages (Q#, Qiskit, Cirq)
- Deep understanding of quantum hardware constraints (superconducting, trapped ion, photonic)
- Published research in top-tier quantum computing conferences (QIP, APS March Meeting)
- Experience with quantum-classical hybrid cloud architectures (AWS Braket, IBM Quantum)
- Strong background in cybersecurity for quantum-resistant systems