Learning How to Break Symmetry With Symmetry-Preserving Neural Networks - IPAM at UCLA

Learning How to Break Symmetry With Symmetry-Preserving Neural Networks - IPAM at UCLA

Institute for Pure & Applied Mathematics (IPAM) via YouTube Direct link

Predicting charge density

12 of 31

12 of 31

Predicting charge density

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Learning How to Break Symmetry With Symmetry-Preserving Neural Networks - IPAM at UCLA

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  1. 1 Intro
  2. 2 Overview
  3. 3 Why is symmetry useful
  4. 4 Invariant vs equivariant models
  5. 5 Equivariant methods
  6. 6 Global symmetry equivalent
  7. 7 Questions
  8. 8 Applications
  9. 9 Molecular force fields
  10. 10 Scaling
  11. 11 Longrange interactions
  12. 12 Predicting charge density
  13. 13 Using a neural network
  14. 14 First paper
  15. 15 Competition
  16. 16 Efficiency
  17. 17 Advanced properties
  18. 18 Neural networks
  19. 19 Representation theory
  20. 20 Reducible representation
  21. 21 Future spaces
  22. 22 Spherical harmonic projections
  23. 23 Invariance
  24. 24 General questions
  25. 25 Emergent behavior
  26. 26 Curious principle
  27. 27 Structural phase transitions
  28. 28 First case
  29. 29 Order parameters
  30. 30 Why not just train a model
  31. 31 Another example

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