Optymalne i probabilistyczne uczenie operacji kwantowych

Quantum computing is nowadays a part of modern computer science. One of its main objectives is to establish quantum supremacy over the classical paradigm of computation. To that end, a quest to build a foul-tolerant quantum computer and the corresponding stack of software has already begun. Superpowers (e.g., USA, China) are leading most efforts in collaboration with the most innovative industrial partners (e.g., Google, Microsoft) guided by worldwide experts on quantum information processing.

Quantum machine learning can be divided into three distinct groups:
  • quantum processing of classical data,
  • application of classical machine learning techniques for quantum algorithms’ development,
  • quantum processing of quantum data.

This project deals with the third group of processing.

Numer projektu: 

2022/47/B/ST6/02380

Termin: 

od 20/06/2023 do 19/06/2027

Typ projektu: 

Projekt własny badawczy

Kierownik projektu: 

prof. dr hab. Zbigniew Puchała

Wykonawcy projektu: 

dr hab. Bartłomiej Gardas
dr hab. inż. Łukasz Pawela

Historia zmian

Data aktualizacji: 27/11/2023 - 12:49; autor zmian: Zbigniew Puchała (zbyszek@iitis.pl)

Quantum computing is nowadays a part of modern computer science. One of its main objectives is to establish quantum supremacy over the classical paradigm of computation. To that end, a quest to build a foul-tolerant quantum computer and the corresponding stack of software has already begun. Superpowers (e.g., USA, China) are leading most efforts in collaboration with the most innovative industrial partners (e.g., Google, Microsoft) guided by worldwide experts on quantum information processing.

Quantum machine learning can be divided into three distinct groups:
  • quantum processing of classical data,
  • application of classical machine learning techniques for quantum algorithms’ development,
  • quantum processing of quantum data.

This project deals with the third group of processing.