About the job
At xAI, we design, build, and operate Colossus from the ground up. This includes the massive GPU clusters, high-speed interconnect fabric, and the software that makes it all work at unprecedented scale. Colossus powers Grok and our frontier AI models with a custom, high-performance datacenter network that delivers ultra-low latency and massive bandwidth across hundreds of thousands of GPUs. As a Software Engineer on the Colossus Networking team, you will develop the core networking software that maximizes the performance and reliability of our datacenter fabric. Your work will directly impact training efficiency, model convergence, and the speed at which we can push the frontier of AI.
Responsibilities
Develop routing and traffic-engineering algorithms for the Colossus high-performance datacenter network.
Develop highly reliable, real-time software designed to run on the switches that form the backbone of our low-latency, high-bandwidth AI training fabric.
Participate in and lead architecture, design, and code reviews.
Develop prototypes and run experiments to validate key design decisions at both small and full-cluster scale.
Build tools for software development, deployment, data analysis, visualization, and testing across virtualized environments, hardware-in-the-loop setups, and live production clusters.
Deploy reliable software updates through continuous integration and release systems with rigorous testing and monitoring.
Qualifications
Minimum
Bachelor’s degree in computer science, engineering, math, or a related technical discipline; OR 2+ years of professional software development experience in lieu of a degree.
Strong development experience in C or C++.
Preferred
Strong professional experience writing high-performance C/C++ in production environments.
Experience developing, debugging, and deploying software that runs at scale in real-world systems.
Deep knowledge of networking protocols (UDP, TCP/IP, RDMA, etc.), distributed systems, and large-scale datacenter fabrics.
Background in real-time systems, high-performance computing, low-latency networking, or resource-constrained environments.
Creative problem-solving ability with exceptional analytical skills and strong engineering fundamentals.
Excellent written and verbal communication skills.
Ability to thrive in a fast-paced, dynamic environment with evolving requirements.
Experience with security considerations in large-scale distributed systems.