This technique helps determine key properties of the quantum Hamiltonian's ground state and tunes quantum fluctuations to help users find optimized solutions to computationally hardproblems.
This technique helps determine key properties of the quantum Hamiltonian's ground state and tunes quantum fluctuations to help users find optimized solutions to computationally hardproblems.
This paper proposes a preliminary microfluidic computing system design for Spiking Neural P systems designed to solve the computationalhard problem of Boolean satisfiability SAT by implementing the model studied in o...
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This paper proposes a preliminary microfluidic computing system design for Spiking Neural P systems designed to solve the computationalhard problem of Boolean satisfiability SAT by implementing the model studied in our previous work. We have also developed a simulation model for the proposed system and have been doing in silico experiments. An AC voltage applied to facilitated electrodes generates Dielectrophoretic force (DEP) and non-uniform electric field in the microfluidic channels. This DEP serves as the main functioning tool of the proposed biochip to control computation steps.
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