Study branch Quantum informatics

Graduates of the Quantum Computer Science specialization are prepared to work in research and development teams focused on quantum computing, quantum cryptography, and advanced information processing methods. They will find employment primarily in institutions and companies developing quantum hardware and software, in technology startups, and in scientific and research organizations dealing with quantum technologies. Thanks to their knowledge of the principles of quantum computing and their ability to work with quantum simulators and real hardware, graduates can hold positions as researchers, quantum algorithm developers, quantum cryptography specialists, or data analysts specializing in quantum methods. The program also provides a solid foundation for continuing on to doctoral studies and participating in international research projects.

The Quantum Computer Science specialization allowed graduates to focus on quantum computer science, i.e., quantum algorithms, quantum hardware, and related computational principles. As part of this specialization, graduates deepened their knowledge in the areas of quantum computing models, quantum information theory, quantum cryptography, and the fundamentals of the physical principles of quantum data processing. The knowledge they acquired enables them to find employment in the developing field of quantum technologies.

Graduates of the Quantum Computer Science specialization will acquire in-depth knowledge and skills in the field of quantum computing and its applications. They understand the principles of quantum mechanics and the mathematical structures of quantum theory and are able to apply advanced quantum algorithms and simulation methods. They can program quantum systems, design and analyze quantum circuits, understand the limitations of current hardware, and are familiar with its possible uses. Graduates are able to distinguish themselves in the fields of quantum computing, quantum cryptography, quantum simulations, and applications of quantum technologies in industry. At the engineering level, they are able to explain the principles of selected algorithms and methods, parameterize them, and adapt them to the needs of the tasks at hand, and are able to identify their advantages and limitations. Graduates find wide application in technology companies, research institutions, and in follow-up doctoral studies, and have the potential to actively contribute to the development of quantum technologies of the future.

Graduates of the Quantum Computer Science specialization are able to design, analyze, and implement quantum algorithms using modern quantum simulators and computing platforms. They can formulate tasks suitable for quantum processing, understand their mathematical formulation, and assess the effectiveness of quantum solutions in comparison with classical methods. Graduates are able to use available quantum hardware and simulators for experimental verification of designs and for research activities in the field of quantum technologies. They are able to combine theoretical knowledge with practical skills and contribute to the development of new approaches in the field of quantum computing and cryptography.

Graduates of the Quantum Computer Science specialization are able to collaborate with experts in the fields of computer science, mathematics, and physics in solving complex technical and research tasks. They are able to accurately formulate professional conclusions, interpret experimental results, and present them in an international context.
They are able to independently search for and critically evaluate new findings in the field of quantum technologies, follow current developments in the field, and adapt to new methodological and technological approaches. They are aware of the social, ethical, and security implications of using quantum computing methods and are prepared to take responsibility for their decisions and the work of their professional team.