Manager, Deep Learning Algorithms

NVIDIA NVIDIA · Semiconductors · Santa Clara, CA

Manager for Deep Learning Algorithms at NVIDIA, focusing on leading engineering teams to productize and optimize Deep Learning models, particularly LLMs and VLMs, for inference deployment. The role involves managing projects, mentoring engineers, and collaborating with internal partners to develop and deploy state-of-the-art DL algorithms on NVIDIA's GPU-accelerated platform.

What you'd actually do

  1. Plan, schedule, mentor, and lead the execution of projects and activities of the team. Including creating, optimizing, and deploying inference DL workloads.
  2. Collaborate with internal customers to align priorities across business units
  3. Coordinate projects across different geographic locations
  4. Grow and develop a world-class team
  5. Travel to conferences, other sites, or visit customers occasionally

Skills

Required

  • BSc or equivalent experience
  • 8+ overall years related of overall experience
  • 3 years of management/leadership experience
  • Experience leading multiple software engineering projects
  • Strong experience with Large Language Models (LLMs) and Large Visual-Language Models (VLMs)
  • Excellent programming, debugging, performance analysis, and test design skills
  • Great communication

Nice to have

  • Experience with inference of DL models
  • Experience doing performance analysis and tuning
  • Exposure to inference platforms such as TensorRT-LLM, vLLM, and SGLang
  • Project management tools (e.g. JIRA, Microsoft Project)

What the JD emphasized

  • Ability to work in a multifaceted, product-centric environment is required
  • excellent interpersonal skills are also a requirement
  • Strong experience with Large Language Models (LLMs) and Large Visual-Language Models (VLMs)
  • Excellent programming, debugging, performance analysis, and test design skills
  • Great communication

Other signals

  • leading engineering teams
  • productizing deep learning models
  • LLM/VLM deployment
  • inference optimization