. "Security And Privacy"@en . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . "Cybersecurity solutions in high performance computing environment"@en . . "6" . "The study course covers the theoretical and practical principles of high-performance computing in the context of cybersecurity by using graphics processing hardware and dedicated software. The study course includes an overview of architecture, computing algorithms, software libraries and tools of parallel computing platform CUDA based on graphics processors. An in-depth attention is devoted to the cross-disciplinary application of CUDA in the areas of vulnerability analysis, parallel data encryption, surveillance data mining, object detection and recognition. Among to the theoretical knowledge acquisition during the lectures, the laboratory lessons provide opportunities to obtain practical skills in the development of information technology solutions with CUDA.\n\nOutcome:\nAre able to define, interpret and use the professional terminology in the areas of graphics processors based high performance computing technologies. - Successfully completed test.\r\nAre able to develop CUDA based software solution. - During the execution of the laboratory work, the ability to perform the assigned tasks following the instructions are shown.\r\nAre able to estimate the development ways, as well as application constraints and optimization possibilities of the proposed high-performance software solution. - During the laboratory work and individual studies, the student is able to identify possible solutions, limitations and alternative solutions of the given tasks.\r\nAre able to explain the essence, opportunities, constraints and role of high-performance computing in certain scientific and practical areas. - The ability to recognize the essence of the formulated thematic questions, as well as to provide a concise and correct explanation of the reasoned topics has been demonstrated during the exam." . . "Presential"@en . "TRUE" . . "Master of Cybersecurity Engineering"@en . . "https://international.rtu.lv/masters-studies/cybersecurity-engineering/" . "120"^^ . "Presential"@en . "The mission of the academic master’s study programme “Cybersecurity Engineering” is to provide a set of theoretical knowledge and practical skills for students to achieve competencies corresponding to a Master’s degree in cybersecurity engineering. In the academic Master’s studies, the student acquires the necessary knowledge, skills and competence for comprehensive and effective action in the field of cybersecurity engineering in the chosen economic sector – design, implementation, improvement and management of IT security systems, understanding of professional ethics and socially responsible management, which forms the basis for further studies for a higher level of knowledge and skills acquisition.\n\nThe aim of the study programme “Cybersecurity Engineering” is to prepare top level specialists in cybersecurity who can (1) understand and develop the cybersecurity policy of companies and various organizations as well as public space; 2) design, implement, monitor and proactively develop cybersecurity measures; (3) conducting international research in cybersecurity; and (4) continue education for professional development or in doctoral studies.\n\nOutcome:\nAs a result of the studies the graduate is able to:\n- identify, justify and formulate information technology security issues;\n- design, implement and operate cybersecurity management systems;\n- analyse, evaluate and develop management systems according to IT security requirements;\n- develop a corporate digital strategy and align it with the information security strategy;\n- critically analyse a system monitoring data, identify and manage cybersecurity risks;\n- apply IT, cybersecurity, data mining and integration tools and techniques, as well as social technologies to protect company information assets;\n- develop organizational measures and technical solutions for cybersecurity threats;\n- integrate information security solutions at the network, hardware, software data and process levels and synthesize unified and systemic security management solutions;\n- ensure safe operation of engineering and socio-technical systems;\n- provide organizational measures and technical solutions for the protection of the company's critical infrastructure;\n- assess and ensure that information security solutions meet industry standards and legal requirements;\n- communicate, advise, collaborate and argue for cybersecurity objectives and outcomes;\n- independently conduct scientific research in information technologies"@en . . . "2"@en . "FALSE" . . "Master"@en . "Thesis" . "Not informative" . "no data"@en . "Not informative" . "None" . "Graduates of the study programme are prepared for work in both the state and local government, as well as in the private sector – in commercial companies, small and medium enterprises. The study programme is suitable for students who want to become a cybersecurity analyst, cybersecurity engineer, cybersecurity architect, cybersecurity consultant. Graduates are also prepared for continuing work in industrial research and development as well as in scientific research and higher education."@en . "no data" . "TRUE" . "Midstream"@en . . . . . . . . . . . . . . . . . . .