Physical and Mathematical Foundations of New Technologies

Within the section, discussions are proposed on a wide range of issues related to the further growth of fundamental technologies that are ahead of their time. This issue is of exceptional importance because many modern directions in information and communication technologies have reached the limit of their development due to both physical and mathematical constraints. A vivid example in this regard is the current situation with von Neumann computing systems based on semiconductors. A serious problem is also the development of promising communication technologies.

On the one hand, the level of technological development achieved presents humanity with increasingly new challenges, including the transmission, processing, and storage of colossal amounts of data. On the other hand, the search for such solutions determines the need to create a new scientific foundation that would meet the needs of the next civilization period.

At the same time, it is important to be able to predict the risks of implementing these technologies at an early stage of their development.

The topics of the section include:

- chemical informatics and new search algorithms in chemical space,

- new ideas and tasks for computational materials science,

- non von Neumann computing systems,

- quantum and post-quantum information transfer and processing systems,

- physical concepts in machine learning and new mathematical approaches in artificial intelligence,

- new control algorithms in robotics,

- new microwave technologies.

Young scientists, graduate students, and senior students of higher education institutions are invited to participate in the work of the section.