Thermodynamic AI and the Fluctuation Frontier - Understanding Physics-Based Hardware for AI Acceleration

Thermodynamic AI and the Fluctuation Frontier - Understanding Physics-Based Hardware for AI Acceleration

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Overconfident AI

34 of 38

34 of 38

Overconfident AI

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Thermodynamic AI and the Fluctuation Frontier - Understanding Physics-Based Hardware for AI Acceleration

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  1. 1 Intro
  2. 2 Patrick Coles Introduction
  3. 3 Patrick Coles Background
  4. 4 Chronic Computing
  5. 5 Baron Plateaus
  6. 6 Air Mitigation
  7. 7 IBM breakthrough
  8. 8 Noise in Computing
  9. 9 Diffusion Models
  10. 10 Current Hardware Limitations
  11. 11 Fundamental Building Blocks of Computers
  12. 12 Continuous Variables
  13. 13 Summary
  14. 14 Multiple Stochastic Units
  15. 15 Applications
  16. 16 Information
  17. 17 Differential Equations
  18. 18 Maxwells Theme
  19. 19 What is a high entropy situation
  20. 20 Maxwells demon in practice
  21. 21 Analog Maxwells demon
  22. 22 Midpoint remarks
  23. 23 Variational Quantum Analogy
  24. 24 Questions
  25. 25 Application Specific Speed UPS
  26. 26 Energy Savings
  27. 27 Nongaussian Sampling
  28. 28 Thermodynamic Linear Algebra
  29. 29 Thermodynamic Algorithm
  30. 30 Analytical Speedups
  31. 31 Numerics
  32. 32 Thermodynamic Playground
  33. 33 Sampling from a Gaussian
  34. 34 Overconfident AI
  35. 35 Thermal Playground
  36. 36 Interface for Thermal Playground
  37. 37 Questions and Answers
  38. 38 Conclusion

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