The space-time formalism in description of quantum information object characteristic properties in the context of problem-solving of observable quantities soft measurements for CARD-systems VI-environments

Abstract

The purpose of this report is the presentation of an original approach for complementary modeling of quantum information objects (quantum circuits) in the virtual instruments environments (VI-environments). While doing the research work the algebraic-topological apparatus for identifying fractal-time structure of the observed signal based on physical phenomenology and p-adic metrics was used. The main result of the work is a new cognitive strategy of multidimensional methodological thinking, based on the following principles: modeling, diversification, complementarity, virtualization, tolerance, duality. The conclusions emphasize the relationship between asynchronous VI-environments ideology and Bergson's philosophy: the events produced by VI-environment components interaction, are objectively exist - they appear and disappear, simulating, thus, some continuous time flow.