Mathematical Models and Methods of Synthesis in Ultra Large Integrated Circuits: A Laboratory Workshop Direction of preparation 01. » is an indispensable learning resource for students, engineers and researchers seeking to immerse themselves in advanced design technologies of modern chips. The author’s team, uniting leading experts in the field of electronics and mathematical modeling, has created a unique manual that combines theoretical foundations with practical skills necessary for the development and optimization of ultra-large integrated circuits (SBIS) This book reveals the complex concepts associated with the application of mathematical models and synthesis methods in the design of modern electronic devices. It examines in detail algorithms, methods of computer-aided design, as well as features of modeling complex structures, which allows the reader to understand how to implement ideas that previously seemed exclusively theoretical in practice. Particular attention is paid to laboratory tasks that help to consolidate the acquired knowledge and develop skills in working with modern design tools. This approach makes the book not only a tutorial, but also a practical guide for future professionals who want to master the intricacies of working with SBIS. The book "Mathematical models and methods of synthesis in ultra-large integrated circuits" is intended for students studying in the direction 01 - "Computer Science and Computer Engineering", as well as for development engineers engaged in the design of chips . Its content will be interesting to those who are interested in modern technologies in the field of electronics, automation of design processes and mathematical modeling. It is especially valuable for those who want to understand how theoretical foundations turn into real engineering solutions that can provide high performance and energy efficiency of modern devices. The author's team masterfully raises important topics such as circuit optimization, design automation, modeling of physical processes and the use of mathematical methods to improve the efficiency of chips. The book deals in detail with issues related to the synthesis of logical chains, analysis and modeling of physical processes, as well as methods to increase reliability and minimize costs in design. These topics are relevant in the era of rapid development of microelectronics, where each millimeter fraction of a millimeter and each nanosecond play a decisive role. The style of presentation of the authors is clear and systematic, which makes complex technical materials available even for beginners. At the same time, the book contains many practical recommendations and examples, which allows the reader not only to understand the theory, but also to apply the knowledge gained in real projects. A special place is occupied by the description of laboratory workshops that help to consolidate modeling and synthesis skills, as well as to prepare for professional activities in the field of microelectronics development .. If you are looking for a book which connects academic theory with practical skills, if you are interested in modern design of ultra-large integrated circuits and you want to understand, how mathematical models help to create faster , reliable and energy-efficient chips, Mathematical models and methods of synthesis in ultra-large integrated circuits : Laboratory Workshop . Direction of preparation 01. It will become a valuable companion for you on the path of professional development .. This book is an excellent choice for students, graduate students, engineers and anyone seeking to master advanced design techniques in the field of microelectronics and digital technologies. Having a rich content and practical orientation, it deservedly ranks among the best tutorials on modern chip design technologies. Its study will open new horizons for you in understanding the complex processes underlying the creation of ultra-modern electronic devices, and will help you become part of the innovative industry that shapes the future of the digital world.