Representation of Quantum Signal Simulating

Abstract

The Newton’s laws had been developed on basis experiments with nature signals, and by hand computation for processing of these signals. The signal carries the code of data. The carrier is a wave - the process of transfer in space and time (physical space) of the code. Then the parameters of this transfer determines the state of the signals in time and space. The design of quantum communication systems, information technology, etc. modeling of quantum signals is a complex problem of representation of the carrier, the signal code, and their quantum states. Quantum computing, and explaining on resolving of application tasks (RSA, FFT algorithm, quantum circuits, etc.) in physical the scales theories and practices (in mechanics and quantum mechanics) are different in technics, algorithmic, and the simulation. All of these significantly does complexity of the design of quantum communication systems. This paper discusses the representation of a quantum signal as its general relationship with the difference of digitized sinusoidal functions with different digitization parameters obtained by a classical computer. This difference is considered similar to squeezed states with different sets of digitization parameters. The peculiarities of the obtained difference signatures with respect to similar quantum phenomena are classified. The representation of modeling of a quantum signal by possibilities of the classical computer as it was developed for quantum states, schemes, protocols is offered.