11.04.03 Design and technology of electronic devices

During the training process, undergraduates receive theoretical knowledge and practical skills in mathematical modeling, automation systems for reliable design, quality management, standardization, metrology, personnel management, quality management systems and certification, practical research activities.
Level of education:
Master’s degree
Form of training:
Full-time (day department)
Venue of training:
Entrance exams:
— Higher mathematics
Programs, specializations:
Design and technology of radio electronic equipment
In the course of training, students of the Master's program receive theoretical knowledge and practical skills in the design and production technology of radio-electronic, electronic-computing, micro- and nano-electronic devices, both civil, military and dual-use, meeting the objectives of their functioning, reliability requirements, design, operating conditions and marketing. Upon completion of the training course, graduates are prepared to engage in research, design, production and technological activity, organization and management, installation, commissioning, service, and operation at enterprises of the radio-electronic industry.
Alumni can be employed as
  • design engineers of radio-electronic equipment
  • design engineers of computing and automated systems
  • electronic engineers
  • micro- and nanoelectronic engineers
  • radio engineers
  • Electrical Engineers
  • circuit engineers
  • systems engineers
  • design engineers of control systems for robotic complexes
  • process engineers
  • software engineers
  • software engineers for microcontrollers and FPGAs
  • maintenance engineers for radio electronic and computer equipment
Program subjects
  • Modeling of structures and technological processes for the production of electronic devices
  • History and methodology of science in the field of radio electronics
  • Schematic design of electronic devices
  • Design of complex systems
  • Micro and nanotechnology
  • System analysis and decision making
  • Computer technologies in science and education
  • Methods of modern mathematics in electronics
  • Technical diagnostics of electronic devices
  • Visual integrated programming environment
  • Methods and means of protecting radio-electronic equipment from destabilizing factors
  • Intelligent information technologies for the design of electronic means
  • Expert systems in the design of electronic devices
Graduating Department:
Department of Design and Production of Radioelectronic Equipment