Програмування мультиплексорних мікро- та наносхем

Abstract

The increasing specialization of large-scale integrated circuits (LSI) with improved performance and reliability is always at odds with their versatility, which expands the required range and reduces the amount of release of each individual toponomy. Elimination of contradictions between specialization and versatility is achieved through the development of multiplexing LSI, which necessary algorithms are programmed by the developer of electronic equipment. The use of LSI in digital micro - and nanoelectronic devices can significantly improve their operational capabilities, primarily to improve reliability and performance, reduce power consumption and overall dimensions. However, the development of LSI is a lengthy and costly process, which is economically justified only if the volume of finished products is sufficiently large. Increasing specialization of IP while improving the above indicators is always in conflict with their versatility, which expands the required range and reduces the amount of production of each individual part type. The latter leads to an increase in the production cost. Automated methods for programming multiplexing micro- and nanocircuits to produce logical functions of multiple arguments are presented. The proposed devices have been simulated and verified using modern computer systems.