Job
Description
Role Overview As part of Hitachi Digital Services, you will be contributing to the development and maintenance of software solutions using Python with a focus on USD frameworks for 3D asset management and rendering. Your role will involve collaborating with cross-functional teams to design and implement digital twin solutions for real-world systems, integrating 3D modeling tools and libraries, creating and optimizing scripts for 3D geometry processing, and working with large-scale datasets to build realistic, interactive digital twins. Additionally, you will enhance visualization pipelines for real-time rendering and physics-based simulations while staying updated with industry trends in USD, 3D modeling, and digital twin technologies. Key Responsibilities - Develop and maintain software solutions using Python with a focus on USD frameworks for 3D asset management and rendering. - Collaborate with cross-functional teams to design and implement digital twin solutions for real-world systems. - Integrate 3D modeling tools and libraries (e.g., Blender, Maya, or Unreal Engine) into workflows for simulation and visualization. - Create and optimize scripts for 3D geometry processing, scene management, and asset handling. - Work with large-scale datasets to build realistic, interactive digital twins. - Enhance visualization pipelines for real-time rendering and physics-based simulations. - Debug, test, and improve performance of 3D modeling software and simulation systems. - Stay up to date with industry trends in USD, 3D modeling, and digital twin technologies. Qualifications - Strong proficiency in Python programming. - Hands-on experience with Universal Scene Description (USD) frameworks and APIs. - Expertise in 3D modeling, asset creation, and scene management using tools like Blender, Maya, or equivalent. - Knowledge of digital twin concepts and applications in real-world scenarios. - Familiarity with real-time rendering engines (e.g., Nvidia, Unreal Engine, Unity) and their Python APIs. - Experience with 3D geometry processing, including transformations, meshes, and textures. - Strong problem-solving skills and ability to work in a fast-paced, collaborative environment. Role Overview As part of Hitachi Digital Services, you will be contributing to the development and maintenance of software solutions using Python with a focus on USD frameworks for 3D asset management and rendering. Your role will involve collaborating with cross-functional teams to design and implement digital twin solutions for real-world systems, integrating 3D modeling tools and libraries, creating and optimizing scripts for 3D geometry processing, and working with large-scale datasets to build realistic, interactive digital twins. Additionally, you will enhance visualization pipelines for real-time rendering and physics-based simulations while staying updated with industry trends in USD, 3D modeling, and digital twin technologies. Key Responsibilities - Develop and maintain software solutions using Python with a focus on USD frameworks for 3D asset management and rendering. - Collaborate with cross-functional teams to design and implement digital twin solutions for real-world systems. - Integrate 3D modeling tools and libraries (e.g., Blender, Maya, or Unreal Engine) into workflows for simulation and visualization. - Create and optimize scripts for 3D geometry processing, scene management, and asset handling. - Work with large-scale datasets to build realistic, interactive digital twins. - Enhance visualization pipelines for real-time rendering and physics-based simulations. - Debug, test, and improve performance of 3D modeling software and simulation systems. - Stay up to date with industry trends in USD, 3D modeling, and digital twin technologies. Qualifications - Strong proficiency in Python programming. - Hands-on experience with Universal Scene Description (USD) frameworks and APIs. - Expertise in 3D modeling, asset creation, and scene management using tools like Blender, Maya, or equivalent. - Knowledge of digital twin concepts and applications in real-world scenarios. - Familiarity with real-time rendering engines (e.g., Nvidia, Unreal Engine, Unity) and their Python APIs. - Experience with 3D geometry processing, including transformations, meshes, and textures. - Strong problem-solving skills and ability to work in a fast-paced, collaborative environment.
