The papers on quantum computer design that have been published have been reviewed. The main difficulties relating to the creation of a quantum computer are investigated. The “up to bottom” approach has been presented and endorsed as a fundamentally unique approach to solving the difficulty of developing a really quantum computer. The approach works by visualising the quantum states of qubits in advance using nanotriggers built of two-dimensional materials like graphene. This is the depiction (materialisation) of all states, including entangled states, which is the primary determinant of the quantum computer's theoretically vast mathematical resource. The proposal is for a block diagram of an electronic device based on “a priori” quantum states of q-bits. It is shown that each realised (visualised) Shor's cell should correlate to an electronic system element for quantum computation procedures to be executed. The gadget includes a block with at least 1010 nanotriggers that operate as q-bits in quantum computation and are manufactured using graphene nanoribbons and controlled by a specific element. The latter is a self-organizing quantum dot with two magnetic states that are fundamentally different. This quantum dot is generated from a chemical with intramolular rearrangement that distinguishes the molecules. Reversible logic gates or blocks are made with nanotriggers. Each gate has three triggers that execute logical operations. The proposed gadget is an additional electronic unit that is implanted in a digital computer and allows the computational process to be implemented according to quantum physics criteria.
Author (S) Details
Vladimir K. Voronov
Department of Computer Technical, Irkutsk National Research Technical University, Irkutsk, 664074, Russia.
View Book :- https://stm.bookpi.org/CTMCS-V9/article/view/3637
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