Job Description
Join the Architects of Tomorrow.
Stellar Dynamics is at the forefront of defining the technological landscape for the coming decade. We are seeking a visionary 2026 Future Systems Architect to lead our Core Infrastructure division. In this role, you will not just maintain systems; you will architect the foundational layers of our next-generation platform designed to scale seamlessly into the 2026 era and beyond.
Why This Role?
• Impact: You will directly shape the architecture that powers our global AI ecosystem.
• Autonomy: We offer complete creative freedom over technical stacks and architectural patterns.
• Equity: Competitive stock options aligned with long-term success.
The Role:
You will be responsible for designing high-availability, low-latency systems that support our most demanding workloads. You will bridge the gap between theoretical research and practical deployment, ensuring our infrastructure is resilient, secure, and ready for future paradigms.
Responsibilities
- Design and implement scalable, fault-tolerant distributed systems for the 2026 ecosystem.
- Lead architectural decisions that optimize performance, security, and cost-efficiency.
- Collaborate with cross-functional teams (ML, Data, Product) to integrate new technologies.
- Define technical standards and best practices for the engineering department.
- Mentor senior engineers and conduct code reviews to ensure architectural integrity.
- Proactively identify potential bottlenecks and implement long-term scaling strategies.
Qualifications
- 10+ years of experience in software engineering and system architecture.
- Deep expertise in cloud-native technologies (AWS, GCP, or Azure) and containerization (Kubernetes, Docker).
- Proven track record of building high-scale systems serving millions of users.
- Strong understanding of distributed databases, message queues, and microservices.
- Excellent communication skills with the ability to explain complex technical concepts to non-technical stakeholders.
- Experience with AI/ML infrastructure integration is highly preferred.