Job Description
Join the quantum revolution at Nexus Quantum Solutions! We're seeking a visionary Quantum Computing Architect to design next-gen systems that will redefine technology by 2026. You'll lead the development of scalable quantum architectures, pioneer hybrid quantum-classical workflows, and collaborate with Nobel laureates to solve humanity's greatest challenges. This role offers unparalleled opportunities to shape the future of computation while working with cutting-edge hardware at our state-of-the-art San Francisco lab.
Our ideal candidate combines deep quantum expertise with entrepreneurial spirit. You'll architect solutions for cryptography, optimization, and AI acceleration while mentoring a team of quantum pioneers. Enjoy competitive equity, flexible work arrangements, and the chance to contribute to breakthroughs that will impact billions.
Responsibilities
- Design and implement scalable quantum computing architectures for enterprise applications
- Develop hybrid quantum-classical integration frameworks for real-world problem solving
- Lead quantum algorithm optimization for cryptography and machine learning workloads
- Collaborate with hardware teams to co-design quantum processors with error correction
- Define quantum security protocols for next-gen communication systems
- Mentor quantum engineers and establish best practices for quantum software development
- Present quantum computing roadmaps to C-suite executives and industry partners
Qualifications
- PhD in Quantum Physics, Computer Science, or related field with 5+ years industry experience
- Expertise in quantum algorithms, error correction, and hardware-software co-design
- Proficiency in quantum programming languages (Q#, Qiskit, Cirq) and Python/C++
- Proven track record of shipping production quantum computing solutions
- Strong background in cloud platforms (AWS Braket, Azure Quantum) and distributed systems
- Experience with quantum cryptography and post-quantum security standards
- Demonstrated ability to translate complex quantum concepts for technical and non-technical audiences