Ontological modeling of micro and macro architectures Co-Design of cyber-physical systems

Abstract

For effective design and modeling of modern mobile cyber-physical systems, it is proposed to use the theory of ontology, which has a number of important advantages: conceptual modeling of the target area in order to find hidden relationships, conflicts and description of incomplete (indefinite) information through abstraction at the physical or digital levels of the system, support for different styles modeling; modern interface of a large number of applications with a hierarchy of menus or work windows based on its developed conceptual model; the ability to combine two database applications or knowledge bases with completely different schemes of incompatible information systems into a single information space. Shown the importance of modern very high and is rapidly increasing mobile cyber-physical systems is determined by their wide range of application: almost all socially significant sectors of industry, economy, social systems: smart healthcare, smart home, smart city, smart e- and m-government. It is noted that the requirement for effective collaborative design and modeling leads to unusual complexity and ultra-high demands, application parallelism and heterogeneity, distribution of intelligence, computing resources для services and workloads in the Internet of Thinks hierarchy too. Suggested for modern complex applications require ultra-high performance and/or ultra-low power consumption иcпoльзoвать the authors propose using heterogeneous computing platforms, designing processors with parallel management multiprocessor macroarchitecture and parallel microarchitecture processors using various types of parallelism and application-specific parallel equipment based on super large-scale integrated circuit 1879VM6Y with high-performance processor core NMC4 of new generation architecture VLIW / SIMD.