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Workshop
Sat Dec 14 08:00 AM -- 06:30 PM (PST) @ West 109 + 110
Machine Learning and the Physical Sciences
Atilim Gunes Baydin · Juan Carrasquilla · Shirley Ho · Karthik Kashinath · Michela Paganini · Savannah Thais · Anima Anandkumar · Kyle Cranmer · Roger Melko · Mr. Prabhat · Frank Wood





Workshop Home Page

Machine learning methods have had great success in learning complex representations that enable them to make predictions about unobserved data. Physical sciences span problems and challenges at all scales in the universe: from finding exoplanets in trillions of sky pixels, to finding machine learning inspired solutions to the quantum many-body problem, to detecting anomalies in event streams from the Large Hadron Collider. Tackling a number of associated data-intensive tasks including, but not limited to, segmentation, 3D computer vision, sequence modeling, causal reasoning, and efficient probabilistic inference are critical for furthering scientific discovery. In addition to using machine learning models for scientific discovery, the ability to interpret what a model has learned is receiving an increasing amount of attention.

In this targeted workshop, we would like to bring together computer scientists, mathematicians and physical scientists who are interested in applying machine learning to various outstanding physical problems, in particular in inverse problems and approximating physical processes; understanding what the learned model really represents; and connecting tools and insights from physical sciences to the study of machine learning models. In particular, the workshop invites researchers to contribute papers that demonstrate cutting-edge progress in the application of machine learning techniques to real-world problems in physical sciences, and using physical insights to understand what the learned model means.

By bringing together machine learning researchers and physical scientists who apply machine learning, we expect to strengthen the interdisciplinary dialogue, introduce exciting new open problems to the broader community, and stimulate production of new approaches to solving open problems in sciences. Invited talks from leading individuals in both communities will cover the state-of-the-art techniques and set the stage for this workshop.

Opening Remarks
Bernhard Schölkopf (Invited Talk 1)
Towards physics-informed deep learning for turbulent flow prediction (Contributed talk 1)
JAX, M.D.: End-to-End Differentiable, Hardware Accelerated, Molecular Dynamics in Pure Python (Contributed Talk 2)
Morning Coffee Break & Poster Session (Coffee Break)
Katie Bouman (Invited Talk 2)
Alán Aspuru-Guzik (Invited Talk 3)
Hamiltonian Graph Networks with ODE Integrators (Contributed Talk 3)
Lunch Break
Maria Schuld (Invited Talk 4)
Lenka Zdeborova (Invited Talk 5)
Afternoon Coffee Break & Poster Session (Coffee Break)
Towards an understanding of wide, deep neural networks (Invited Talk 6)
Learning Symbolic Physics with Graph Networks (Contributed Talk 4)
Metric Methods with Open Collider Data (Contributed Talk 5)
Equivariant Hamiltonian Flows (Contributed Talk 6)