паралелізм

CREATING MULTITHREADED PTOGRAMS IN C++

For many years, the increase in computing power of modern devices is achieved not by increasing the clock frequency and bandwidth of CPUs, but by using hyper-threaded and multicore architectures. This simple change in approach to the CPU design led to dramatic changes in the organization of computing and became a turning point for software developers. Software that is going to take advantage of the increased computing power of multi-core architectures must be designed to be able to perform multiple tasks simultaneously.

Method and program model of microelectromechanical systems components synthesis based on genetic algorithm and ontology models

In this paper the general process and the concurrent synthesis realization model of microelectromechanical systems, which is based on developed genetic algorithm, are described. As the synthesis task in the sphere of complex microsystems is very comprehensive and timeconsuming, the actuality of performance and speed issues to generate the novel system and its components constructions is still up-to-date unsolved item. The developed model facilitates and accelerates the synthesis of the new and unique microelectromechanical systems structures.