Background of quantum end-to-end IT application in robotics and intelligent cognitive control: stochastic mechanics, quantum information physics and information geometry

The physical platform (in the general form of quantum relativistic mechanics and quantum relativ-istic thermodynamics) became the basis for the development of a new generation of quantum end-to-end information technologies (CSIT), which in turn led to the development of the foundations of quan-tum engineering (quantum computer), quantum information theory, quantum software engineering, quantum computing, quantum cryptography, quantum algorithms and quantum programming. More-over, the nature and essence of the very concept of "information" began to be considered as a physi-cal object. This made it possible to establish a mechanism and opportunities to perform useful work without violating the second law of thermodynamics due to correct information models of the second law itself. Today the necessary standard courses in physics, analytical mechanics and thermodynam-ics (including quantum models) for IT specialists are practically absent, herewith the Church-Turing thesis about the algorithmic basis of information and the universality of the Turing computing machine often served as a justification. The situation changed dramatically with the arrival of CSIT and the Church-Turing thesis itself underwent a significant revision. This article provides the minimum neces-sary information from these areas for the development and transition to CSIT.