Machine Learning for Quantum Simulation - IPAM at UCLA

Machine Learning for Quantum Simulation - IPAM at UCLA

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

Unsupervised Pass at the Phase Diagram

14 of 20

14 of 20

Unsupervised Pass at the Phase Diagram

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Machine Learning for Quantum Simulation - IPAM at UCLA

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  1. 1 Intro
  2. 2 TUNNELING DENSITY OF STATES, IN 1962
  3. 3 X-ray diffraction in 1913
  4. 4 Projective Measurements in 1922
  5. 5 Machine Learning Quantum Emergence
  6. 6 Train a neural network to recognize best hypothesis?
  7. 7 DETERMINED BY WEIGHTS AND BIASES
  8. 8 TRAINING THROUGH FEEDBACK
  9. 9 CORRELATOR CONVOLUTIONAL NEURAL NETWORKS: AN INTERPRETABLE ARCHITECTURE FOR IMAGE-LIKE
  10. 10 Convolutional Neural Networks (CNN)
  11. 11 The validity of CCNN's learning?
  12. 12 MACHINE LEARNING DISCOVERY OF NEW PHASES IN PROGRAMMABLE RYDBERG QUANTUM SIMULATOR SNAPSHOTS
  13. 13 SQUARE-LATTICE RYDBERG PHASES
  14. 14 Unsupervised Pass at the Phase Diagram
  15. 15 Supervised Learning
  16. 16 Supervised Phase Diagram
  17. 17 Entanglement in Striated Phase
  18. 18 New Phase l: Edge-ordering
  19. 19 New Phase II: Rhombic Phase
  20. 20 Machine Learning for Quantum Simulation Supervised ML: Learn characteristic Correlations NEW INSIGHT into COMPLEX DATA

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