Digital Twin Developer

As a Digital Twin Developer, you will be responsible for designing, developing, and implementing digital twin models that simulate real-world systems and processes. You will collaborate with cross-functional teams to envision manufacturing process. You would be responsible to optimize manufacturing processes and improve planning efficiency through integration of digital twin in Core Process at MO.

Key Responsibilities\:

  • Digital Twin Development\: Design, develop, and maintain digital twin models for automotive systems, ensuring their scalability and reliability.
  • Integration and Collaboration\: Work closely with engineering teams to integrate digital twins into product development cycles.
  • Data Analysis\: Analyze digital twin data to extract actionable insights for optimizing processes.
  • Trend Monitoring\: Stay informed about the latest trends and technologies in digital twin development.
  • 3D Workflows\: Develop and demonstrate 3D workflows using NVIDIA Omniverse, with expertise in complex 3D pipelines and content creation workflows.
  • GPU Development\: Utilize GPUs to develop SDKs and full-stack datacenter architecture.
  • Software Architecture\: Design and develop software technology architecture tailored to client needs.
  • DCC Tools Expertise\: Experience with DCC tools such as 3ds Max, Maya, Revit, Blender, and Substance.
  • Interactive 3D Pipeline\: Knowledge of the full interactive 3D pipeline, from modeling to application, within manufacturing industries.
  • DevOps and Cloud\: Develop software in hybrid cloud environments, combining cloud and on-prem solutions.
  • Data Manipulation\: Passion for manipulating and translating 3D geometry, animation, and materials into code.
  • Technical Expertise\: Broad and deep technical knowledge across infrastructure requirements, development, design, and re-engineering.
  • Machine Learning\: Familiarity with machine learning and deep learning techniques.
  • Generative AI\: Understanding of generative AI technologies and implementation.