V. Hahanov, W. Gharibi, M. Liubarskyi, Abdullayev Vugar Hacimahmud, S. Chumachenko, I. Hahanov, E. Litvinova
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Cyberculture of quantum memory-driven computing integrates emerging technologies of parallel solution for time-consuming combinatorial problems. A scalable map of research relevant to quantum cyberculture is aimed at creating parallel algorithms for SoC Design and Test. The memory-driven innovation architecture of quantum computing is presented, which is defined by the leverage of photon read-write transactions on the structure of electrons in the absence of logic, associated with superposition and entanglement. A class of logical X-functions and their qubit models is introduced, that are technologically feasible for test, diagnosis, and fault simulation of SoC components. The architecture of services for design, test and verification of digital devices based on qubit models of logical primitives is described. A service for fault-free circuits simulation based on the qubit coverage of functional primitives is given. The models, cubit data structures and methods are focused and simulated on the classical computers by leveraging unitary coding binary states.
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