Job Description
We are Nexus Horizon Solutions, a pioneer in next-generation computing. As we accelerate toward the technological landscape of 2026, we are seeking a visionary Senior AI & Quantum Architect to lead our R&D division.
In this role, you will not just build software; you will architect the foundational systems that will define the future of enterprise intelligence. You will bridge the gap between current AI capabilities and the quantum supremacy required by 2026.
Join a team that values radical innovation, scalability, and the pursuit of the impossible.
Responsibilities
- Design and implement scalable quantum-algorithmic architectures tailored for 2026 computing environments.
- Lead a cross-functional team of engineers and data scientists to transition legacy systems into future-ready AI infrastructures.
- Define the technical roadmap for integrating Generative AI with emerging quantum computing paradigms.
- Conduct high-level research and prototype solutions for complex, unsolvable problems using next-gen neural networks.
- Collaborate with C-suite executives to translate futuristic tech concepts into viable business strategies.
- Ensure all architectural designs adhere to the highest standards of security, ethics, and scalability.
- Mentor junior staff, fostering a culture of continuous learning and innovation.
Qualifications
- Masterβs or PhD in Computer Science, Physics, or a related field with a focus on Artificial Intelligence and Quantum Mechanics.
- 10+ years of experience in software engineering, with at least 5 years in high-level architecture roles.
- Deep proficiency in Python, C++, and modern AI frameworks (TensorFlow, PyTorch, Qiskit).
- Proven track record of leading complex technical projects from conception to deployment.
- Exceptional strategic thinking skills with the ability to anticipate industry trends for the 2026 timeframe.
- Strong communication skills, capable of explaining complex technical concepts to non-technical stakeholders.
- Certification in Cloud Architecture (AWS/Azure/GCP) is highly preferred.