An Optical Quantum Computer that Uses Both Quantum Logic Gate and Quantum Annealing

Pushpendra Singh; Pathik Sahoo; C. S. Yadav; Laxmidhar Behera; Anirban Bandyopadhyay

doi:10.1007/978-981-97-1923-5_42

書籍の一部 An Optical Quantum Computer that Uses Both Quantum Logic Gate and Quantum Annealing

Pushpendra Singh ; Pathik Sahoo ; C. S. Yadav ; Laxmidhar Behera ; Anirban Bandyopadhyay (National Institute for Materials Science)

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Pushpendra Singh, Pathik Sahoo, C. S. Yadav, Laxmidhar Behera, Anirban Bandyopadhyay. An Optical Quantum Computer that Uses Both Quantum Logic Gate and Quantum Annealing. https://doi.org/10.1007/978-981-97-1923-5_42

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(abstract)

In conventional logic gate-based quantum computing, qubits have specific
functions but require cryogenic temperatures. Quantum annealing-based quantum
computing faces challenges like decoherence and non-adiabatic transitions. To
address these issues, we introduce the Quantum Graphical Processing Unit (QGPU),
which operates at room temperature, instantly converting patterns in data into organized
information. It utilizes an organic gel processor, self-assembled nanowires,
and single-photon reading to create optical vortex holograms revealing relationships.
The gel can be reused for different tasks, and multiple processors communicate via
quantum teleportation, eliminating the need for traditional quantum algorithms.

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