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VERSION:2.0
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SUMMARY:Quantum Computing
DTSTART;VALUE=DATE-TIME:20260504T090000Z
DTEND;VALUE=DATE-TIME:20260515T110000Z
DTSTAMP;VALUE=DATE-TIME:20260416T222239Z
UID:indico-event-8496@indico.ific.uv.es
DESCRIPTION:++++++++++++++++++++++++++++++++++\n\nIntroduction to Quantum 
 Computing (2026)\n\n++++++++++++++++++++++++++++++++++++\n\n\ngiven by (al
 phabetical order):\n\nCarmen G. Almudéver (UPV)\, Armando Pérez (UV)\, 
 Bryan Zaldívar (CSIC)\n\n\nOUTLINE\n\n\nLecture #1. Classical Computation
 : Turing machine\; circuit model\; gates. Computational complexity\, Land
 auer Principle\, reversible computation. (B. Zaldívar)\n\n\nLecture # 2. 
 The qubit\, Bloch sphere\, circuit model\, gates\, Bell basis. Universal 
 Quantum Computation. (B. Zaldívar). \n\n\nLecture # 3.  Quantum program
 ming (python notebook): Qiskit language\, Simple circuits. (B. Zaldívar)
 \n\n\nLecture # 4.  No Cloning Theorem\, quantum cloning\, teleportation
 . (A. Pérez)\n\n\nLecture # 5. Quantum algorithms: Quantum parallelism. D
 eutsch\, Grover. (A. Pérez)\n\nLecture # 6 Quantum Fourier\, Quantum phas
 e estimation\, Shor. (B. Zaldívar)\n\nLecture # 7. Quantum information th
 eory: Density matrix\, Entanglement measures: Shannon\, noiseless coding 
 theorem\, Mutual information.Von Neumann entropy\, Schumacher theorem. (B
 . Zaldívar). \n\n\nLecture # 8. Quantum noise: Decoherence\, quantum cha
 nnels. (A. Pérez)\n\nLecture # 9. Quantum circuit applications. Quantum s
 imulations. Trotter decomposition. Variational circuits. (A. Pérez)\n\n\
 nLecture # 10. Quantum computer technologies. Quantum error correction. (C
 .G. Almudéver). \n\n \n\n\n\n \n\n\n\n \n\n\n\nhttps://indico.ific.uv
 .es/event/8496/
LOCATION:Campus Burjassot Room 4204
URL:https://indico.ific.uv.es/event/8496/
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