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Test Environment for Verifying Quantum Algorithms and Controlling SINARA Real-time Modules

Wyrostkiewicz Michał P., Kuczerski Tomasz, Gibalski Dariusz

Problemy Mechatroniki : uzbrojenie, lotnictwo, inżynieria bezpieczeństwa

2024

Vol. 15, Nr 1 (55)

55--64

This paper describes the process of creating and using a quantum computing environment. It also discusses the manner in which first quantum experiments using mathematical models, simulators or commercially available quantum computers may be conducted. In addition, it explains how the available quantum algorithms may be understood and applied. Finally, the role of real-time systems and their control in the architecture of a quantum computer is described.

Prezentacja o tworzeniu i wykorzystywaniu środowiska do obliczeń kwantowych. Omówione są również, w jaki sposób przeprowadzić pierwsze eksperymenty kwantowe na poziomie matematycznym, symulatora lub dostępnych komercyjnie komputerów kwantowych. Dodatkowo wyjaśnione jest w jaki sposób rozumieć oraz wykorzystywać dostępne algorytmy kwantowe. Na koniec, opisano rolę systemów czasu rzeczywistego i ich sterowania w architekturze komputera kwantowego.

The Quantum Computer - What Does It Means?

Kosiński J.

Studia Informatica : systems and information technology

2007

Vol. 1(8)

77--96

In a classical measurement the Shannon information is a natural measure of our ignorance about properties of a system. There, observation removes that ignorance in revealing properties of the system which can be considered to preexist prior to and independent of observation. Because of the completely different root of a quantum measurement as compared to a classical measurement, conceptual difficulties arise when we try to define the information gain in a quantum measurement using the notion of Shannon information. In contrast to classical measurements, quantum measurements, with very few exceptions, cannot be claimed to reveal a property of the individual quantum system existing before the measurement is performed. A mathematical theory of computation that is based on quantum physics is bound to be different. They are the analogues for quantum computers to classical logic gates for conventional digital computers. Although quantum gates work on qubits in a much different fashion from standard electronic circuits, they only differ in their basic effects in one sense: reversibility.