Gladkikh T. The verification of electronic devices dynamic parameters based on K-valued simulation

Object of research processes of dynamic characteristics verification of electronic devices on structural gated level of their designing. The aim is the work improvement of dynamic parameters verification methods of computers which are projected in view of internal and external handicaps. Methods of research are apparatus of the applied theory of digital automatic devices for the description of separate developed elements, the theory of the K-valued differential equations and the apparatus of discrete mathematics for development of numerical methods of the K-valued differential equations decision. The theoretical meaning of the work is concluded in new results which methodologically and mathematically provide the decision of an actual problem of development of verification method of projected electronic devices dynamic parameters in view of internal and external handicaps are received. The practical meaning is the system engineering of projected electronic devices verification based of the mathematicaldevice of K-valued differential calculation which allows to investigate devices dynamic parameters, and to carry out their simulation in view of electromagnetic compatibility parameters of separate components. The novelty is in following: the generalized K-valued model of computer devices digital element, which describe functioning of an element by system of the K-valued differential equations with delay, allows to simulate digital devices with the opposites foils, allows to carry out power analysis and verification of devices with variable delays has received the subsequent developmen; for the first time the method of digital devices research which enables to carry out simulation their functioning in different modes is developed; the method of hybrid devices verification with help system ORCAD and in system of simulation based of K-valued differential calculation is developed; for the first time the K-valued differential form of the cable equations is received and the numerical method of the decision of thisK-valued differential equation in partial derivatives that enables to model digital devices with long lines which channels of communication in computer networks is offered. Introduction: results of dissertational work were the production managements of monocrystals introduced and approved at system engineering in Institute scintillation materials NAS of Ukraine (Kharkov), and also in educational process on faculties " Computer facilities and programming " и " Computer science and the intellectual property " NTU "KhPI". The field is instrument making.