Works on the theory of synthesis of self-testable integrated control circuits based on binary isb.code. In 2 vols .

The first volume of the book includes works devoted to three main areas of research in the field of synthesis of self-testable discrete systems: the study of the features of classical codes with summation (Berger codes), modular codes with summation, as well as their modifications proposed by the authors of the articles; the study of the features of codes for which control digits are obtained using convolutions modulo M = 2 parts of information bits (polynomial codes and classical Hamming codes); studies of the logical complement method for the organization of self-testable discrete systems based on redundant binary codes. The materials on detailed characteristics of error detection in information bits of redundant binary codes, provided that the control bits are error-free, descriptions of methods for constructing previously unknown modified codes with summation and features of methods for synthesizing self-testable discrete systems based on binary redundant codes are given. For developers, researchers, engineers in the field of technical diagnostics of discrete systems and synthesis of systems with fault detection, as well as students studying computer science, computer engineering and automation. The second volume of the book includes works in the field of constructing binary codes with summation with weighted bits and transitions between bits occupying adjacent positions in the information vectors of code words, as well as the results of the study of their characteristics and methods of synthesis of coding equipment. The issues of application of the properties of codes in the organization of self-testable discrete systems are considered. The reader will find on the pages of this volume materials on the detailed characteristics of detecting errors in the information bits of weighted codes with summation, provided that the control bits are error-free, descriptions of methods for constructing previously unknown weighted codes with summation and features of methods for synthesizing self-testable discrete systems based on them. The book can be useful to developers, researchers and engineers working in the field of technical diagnostics of discrete systems and synthesis of systems with fault detection, as well as students studying computer science, computer engineering and automation.