{"type":"video","version":"1.0","html":"<iframe src=\"https://www.loom.com/embed/3fefb7772dda493ab8d4224a6d585ca5\" frameborder=\"0\" width=\"1280\" height=\"960\" webkitallowfullscreen mozallowfullscreen allowfullscreen></iframe>","height":960,"width":1280,"provider_name":"Loom","provider_url":"https://www.loom.com","thumbnail_height":960,"thumbnail_width":1280,"thumbnail_url":"https://cdn.loom.com/sessions/thumbnails/1e68d7914e584ea899f1972b9028a845-full-1680746822341.jpg","duration":467.425089,"title":"3. Inverse Physics-ML for Additive Manufacturing - 040423","description":"Demo workflow 3 of 3 in a Pasteur4D preview series, demonstrating several ML-accelerated multiphysics workflows in system-of-systems optimization of nuclear SMR technologies.\n→ Demo 1: heat exchanger design optimization — https://www.loom.com/share/287abd9ebfb644d39740b9096145de85\n→ Demo 2: multiphysics uncertainty propagation of full nuclear fission reactor — https://www.loom.com/share/05e4f4094706475da55183ab37532da8\n→ Demo 3: end-to-end optimal additive manufacturing of aerospace heat exchanger surfaces — https://www.loom.com/share/1e68d7914e584ea899f1972b9028a845"}