Abstract
Problem statement: In this study, a general plan of hybrid architecture for quantum algorithms is proposed. Approach: Analysis of the quantum algorithms shows that these algorithms were hybrid with two parts. First, the relationship of classical and quantum parts of the hybrid algorithms was extracted. Then a general plan of hybrid structure was designed. Results: This plan was illustrated the hybrid architecture and the relationship of classical and quantum parts of the algorithms. This general plan was used to increase implementation performance of quantum algorithms. Conclusion/Recommendations: Moreover, simulation results of quantum algorithms on the hybrid architecture proved that quantum algorithms can be implemented on the general plan as well.
Highlights
A quantum computer is a device that takes advantage of quantum mechanical effects, such as superposition and entanglement, to perform certain computations faster than a purely classical machine can
A general plan of hybrid architecture for the quantum algorithms can be developed and implemented for circuits of the quantum algorithms. This plan is useful for simulation and architecture design of quantum computer to be run quantum algorithms and inspired a development of new quantum algorithm
This study is proposed the hybrid architecture for the quantum algorithms
Summary
A quantum computer is a device that takes advantage of quantum mechanical effects, such as superposition and entanglement, to perform certain computations faster than a purely classical machine can. Quantum parallelism is best understood in the context of the concepts of superposition, entanglement and measurement. If large-scale quantum computers can be built, they will be able to solve certain problems much faster than any of our current classical computers. Quantum computers are different from traditional computers based on transistors. Some computing architectures such as optical computers may use classical superposition of electromagnetic waves. Without some quantum mechanical resources such as entanglement, it is conjectured that an exponential advantage over classical computers is not possible.
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