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X-WR-CALNAME:[ICQ] Daniel Escánez Expósito (Universidad de La Laguna) Algeb
 raic language for the efficient representation and optimization of quantum
  circuits
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TZUNTIL:20270328T010000Z
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DTSTART:20241027T030000
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RDATE:20251026T030000
RDATE:20261025T030000
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RDATE:20260329T020000
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DESCRIPTION:On the one hand\, the use of graphical language in quantum comp
 uting for the representation of algorithms\, although intuitive\, is not v
 ery useful for different tasks such as the description of quantum circuits
  in text environments\, the calculation of quantum states or the optimizat
 ion of quantum circuits. An algebraic language has been developed to repre
 sent quantum circuits in a convenient and concise manner\, similar to the 
 way Boolean expressions are used in classical circuits. The proposed notat
 ion\, QAlgebra\, allows the consistent and parameterized description of qu
 antum algorithms\, as well as the easy handling of the elements that compo
 se it to achieve powerful optimizations in the number of gates of the circ
 uits. On the other hand\, the QuantumSolver (QS) python library has been i
 mplemented as a link between different quantum disciplines and application
 s. It is composed of several submodules: QS Basic\, where simple algorithm
 s are included\; QS Subroutine\, a collection of algorithms in which the q
 uantum part forms only a part of the procedure\; QS Crypto\, which include
 s numerous implementations of Quantum Key Distribution algorithms\; QS Com
 poser\, a transpiler from traditional classical gates to quantum gates\; Q
 S AI\, which allows solving the classification problem by supervised learn
 ing with Variational Quantum Circuits. This library is in a process of con
 stant evolution\, as it is an open source project\, which tries to maintai
 n an accessible and easily extendable structure. Several open questions wi
 ll be raised for discussion\, such as the possible undecidability in the a
 pplication of overwriting rules in the minimisation of a circuit using alg
 ebraic notation\, the evaluation of the expressiveness and practicality of
  QAlgebra\, or the formulation of new QKD protocols based on those already
  implemented in QS Crypto (such as BBM92\, SARG04). \n\n\n\nhttps://combal
 go.labri.fr/pmwiki.php/Groupe/Info-Quantique\n\nImport automatique depuis 
 https://webmel.u-bordeaux.fr/home/bf-labri.ca@u-bordeaux.fr/gt.info-quanti
 que.ics par sync_icals_to_drupal.py pour gt-iq
DTSTART;TZID=Europe/Paris:20250603T104500
DTEND;TZID=Europe/Paris:20250603T114500
LOCATION:LaBRI
SEQUENCE:0
SUMMARY:[ICQ] Daniel Escánez Expósito (Universidad de La Laguna) Algebraic 
 language for the efficient representation and optimization of quantum circ
 uits
TRANSP:OPAQUE
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