Abstract

Quantum computers use the properties of quantum physics to store data and perform calculations. They can perform better than the fastest computers we use. Classical computers, including smart phones and laptops, encode information in binary “bits.” They can be either 0 or 1. In a quantum computer, the basic unit of memory is the quantum bit or qubit. Qubits are made using physical systems such as the spin of an electron or the orientation of a photon. These systems can be found in multiple orders simultaneously. This property is called quantum superposition. In this paper the superposition and interface management model based on the qubits was proposed to enhance the computational operations. The qubits can be inextricably linked using a phenomenon called quantum entanglement. As a result, successive qubits can represent different data simultaneously. According to traditional mechanistic theory, to understand a mechanical system as a whole, one must understand the properties of its parts. Its idea is that the mechanics of the whole can be devised by knowing the basic properties of the parts, the mechanisms by which they operate.