Quantum Computation - The 2023 IAS-PCMI Graduate Summer School

Quantum Computation - The 2023 IAS-PCMI Graduate Summer School

IAS | PCMI Park City Mathematics Institute via YouTube Direct link

Part 5 On the theory of near-term quantum advantage | Bill Fefferman (The University of Chicago)

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Part 5 On the theory of near-term quantum advantage | Bill Fefferman (The University of Chicago)

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Quantum Computation - The 2023 IAS-PCMI Graduate Summer School

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  1. 1 Part 1 Overview of quantum learning theory | Srinivasan Arunachalam (IBM Quantum)
  2. 2 Part 2 Strengths and weakness for learning functions from quantum examples | Srinivasan Arunachalam
  3. 3 Part 3 Overview of results for learning quantum states | Srinivasan Arunachalam (IBM Quantum)
  4. 4 Part 4 Learning classes of quantum states | Srinivasan Arunachalam (IBM Quantum)
  5. 5 Part 1 Discrete and Quantum Fourier Transform | András Gilyén (Alfréd Rényi Institute, Hungary)
  6. 6 Part 2 Quantum Fourier transform–beyond Shor’s algorithm | András Gilyén (Alfréd Rényi Inst)
  7. 7 Part 3 Quantum Fourier transform–beyond Shor’s algorithm | András Gilyén (Alfréd Rényi Inst)
  8. 8 Part 4 Quantum Fourier transform–beyond Shor’s algorithm | András Gilyén (Alfréd Rényi Inst)
  9. 9 Part 5 Quantum Fourier transform–beyond Shor’s algorithm | András Gilyén (Alfréd Rényi Institute)
  10. 10 Part 1 Quantum Information Theory | Omar Fawzi (École Normale Supérieure de Lyon)
  11. 11 Part 2 Distance Measures Between States | Omar Fawzi (École Normale Supérieure de Lyon)
  12. 12 Part 3 Data Processing For Quantum Relative Entropy | Omar Fawzi (École Normale Supérieure de Lyon)
  13. 13 Part 4 Quantum Information Theory | Omar Fawzi (École Normale Supérieure de Lyon)
  14. 14 Part 5 Algorithmic Aspects Of Optimal Channel Coding | Omar Fawzi (École Normale Supérieure de Lyon)
  15. 15 Part 1 Quantum and quantum-inspired linear algebra | Ewin Tang (University of Washington)
  16. 16 Part 2 Proving the QSVT | Ewin Tang (University of Washington)
  17. 17 Part 4 Introducing quantum-inspired linear algebra | Ewin Tang (University of Washington)
  18. 18 Part 5 Quantum-inspired algorithms: sketching and beyond | Ewin Tang (University of Washington)
  19. 19 Part 1 Quantum query complexity basics+the hybrid method | Yassine Hamoudi (U California, Berkeley)
  20. 20 Part 3 The recording method–Quantum query complexity| Yassine Hamoudi (U of California, Berkeley)
  21. 21 Part 4 Quantum query complexity: the adversary method | Yassine Hamoudi (U of California, Berkeley)
  22. 22 Part 1 Quantum LDPC codes | Nicolas Delfosse (Microsoft Research)
  23. 23 Part 2 Quantum LDPC codes | Nicolas Delfosse (Microsoft Research)
  24. 24 Part 3 Quantum LDPC codes | Nicolas Delfosse (Microsoft Research)
  25. 25 Part 4 Quantum LDPC codes | Nicolas Delfosse (Microsoft Research)
  26. 26 Verifiable Quantum Supremacy: What I Hope Will Be Done | Scott Aaronson (University of Texas)
  27. 27 Quantum Error Correction | Barbara Terhal (Delft University of Technology)
  28. 28 Part 1 Quantum Hamiltonian complexity | Sandy Irani (University of California, Irvine)
  29. 29 Part 2 Quantum Hamiltonian complexity | Sandy Irani (University of California, Irvine)
  30. 30 Part 3 Quantum Hamiltonian complexity | Sandy Irani (University of California, Irvine)
  31. 31 Part 4 Quantum Hamiltonian complexity | Sandy Irani (University of California, Irvine)
  32. 32 Part 5 Stoquastic Hamiltonians | Sandy Irani (University of California, Irvine)
  33. 33 Part 1 On the theory of near-term quantum advantage | Bill Fefferman (The University of Chicago)
  34. 34 Part 3 On the theory of near-term quantum advantage | Bill Fefferman (The University of Chicago)
  35. 35 Part 4 On the theory of near-term quantum advantage | Bill Fefferman (The University of Chicago)
  36. 36 Part 5 On the theory of near-term quantum advantage | Bill Fefferman (The University of Chicago)
  37. 37 Part 1 Quantum Singleton bound and consequences | Jeongwan Haah (Microsoft Research)
  38. 38 Part 2 Codes and homology | Jeongwan Haah (Microsoft Research)
  39. 39 Part 3 Circuit complexity of code states | Jeongwan Haah (Microsoft Research)
  40. 40 Part 4 Transversal gates: Topological aspects of quantum codes | Jeongwan Haah (Microsoft Research)
  41. 41 Part 3 Quantum-inspired algorithms: sketching and beyond | Ewin Tang (University of Washington)
  42. 42 Part 2 The polynomial method: Quantum query complexity | Yassine Hamoudi (U California Berkeley)
  43. 43 Part 5 Algorithmic dual to the adversary method: Quantum query complexity | Yassine Hamoudi
  44. 44 Part 2 On the theory of near-term quantum advantage | Bill Fefferman (The University of Chicago)

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