Job Description
Join the Vanguard of Project 2026
We are redefining the boundaries of artificial intelligence and computing at Nexus Future Tech. As a key member of our elite team, you will architect the next generation of quantum algorithms designed to solve complex problems in logistics, cryptography, and predictive modeling. This is not just a job; it is a mission to build the infrastructure of the future.
Why Join Us?
- Work on Project 2026, a groundbreaking initiative backed by top-tier VC funding.
- Access to cutting-edge quantum hardware and cloud resources.
- Competitive compensation package with equity options.
- Collaborate with world-class researchers and engineers.
Your Impact
You will lead the technical direction for our quantum machine learning models, ensuring scalability and efficiency on near-term quantum devices (NISQ). Your work will directly influence how industries harness the power of quantum supremacy.
Responsibilities
- Design, develop, and optimize quantum algorithms for commercial applications using Qiskit and Cirq.
- Bridge the gap between theoretical quantum physics and practical software engineering.
- Lead code reviews and mentor junior engineers on quantum best practices.
- Collaborate with data scientists to integrate quantum solutions into existing AI pipelines.
- Conduct rigorous testing and validation to ensure algorithmic accuracy and performance.
- Stay abreast of the latest advancements in quantum hardware and contribute to the technical roadmap for Project 2026.
Qualifications
- Ph.D. or Masterβs degree in Computer Science, Physics, Mathematics, or a related quantitative field.
- 5+ years of experience in software engineering, with a strong focus on Python, C++, or Java.
- Proven experience with quantum computing frameworks (Qiskit, Pennylane, or Google Cirq).
- Strong understanding of linear algebra, probability theory, and machine learning fundamentals.
- Excellent problem-solving skills and ability to thrive in a fast-paced, agile environment.
- Experience with cloud platforms (AWS, Azure, or Google Cloud) for quantum workloads.