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Ventaja cuántica práctica en la simulación cuántica

Andrew J Daley1, Immanuel Bloch2,3,4, Christian Kokail5,6

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Área de la Ciencia:

  • La computación cuántica
  • Simulación Cuántica
  • Ciencias de los materiales
  • Química Cuántica
  • Física de altas energías

Sus antecedentes:

  • La computación cuántica ha alcanzado la "ventaja cuántica" para problemas artificiales.
  • La siguiente frontera es la "ventaja cuántica práctica" para los desafíos del mundo real.
  • La simulación cuántica es una aplicación clave a corto plazo.

Objetivo del estudio:

  • Para dar una visión general del estado del arte en la simulación cuántica.
  • Para discutir las perspectivas futuras para la simulación cuántica.
  • Identificar dónde existe actualmente una ventaja cuántica práctica.

Principales métodos:

  • Visión general de las tecnologías y plataformas de computación cuántica actuales.
  • Análisis de simuladores cuánticos analógicos para aplicaciones especializadas.
  • Discusión de las computadoras cuánticas digitales y los enfoques híbridos.

Principales resultados:

  • La ventaja cuántica práctica ya es alcanzable con simuladores cuánticos analógicos especializados.
  • Las computadoras cuánticas digitales ofrecen aplicaciones más amplias, pero requieren hardware tolerante a fallas.
  • Los dispositivos cuánticos híbridos proporcionan flexibilidad a corto plazo.

Conclusiones:

  • Los simuladores cuánticos analógicos especializados ofrecen un camino actual a la ventaja cuántica práctica.
  • El desarrollo de hardware tolerante a fallos es crucial para las computadoras cuánticas digitales.
  • Los enfoques híbridos son vitales para las aplicaciones cuánticas a corto plazo.