Computational Engineering of Technical Systems (COMET)

The Master’s program in Computational Engineering of Technical Systems (COMET) at Saarland University offers an interdisciplinary and application-oriented education designed to prepare students for advanced roles in engineering, research, and industry. This program combines principles from computer science, mechanical engineering, electrical engineering, and applied mathematics to develop comprehensive skills in modeling, simulation, and optimization of complex technical systems. Throughout the course of study, students gain a deep understanding of the theoretical foundations and practical applications necessary to analyze and design innovative technological solutions. The curriculum emphasizes hands-on experience with modern computational tools, programming languages, and numerical methods, enabling graduates to tackle real-world engineering challenges efficiently and effectively.

Students enrolled in COMET benefit from a close integration of theory and practice, with opportunities to participate in cutting-edge research projects, collaborate with industry partners, and undertake internships that provide valuable industry insights. The program also focuses on developing key competencies in system simulation, control engineering, data analysis, and computational physics, all within the context of emerging technological fields such as automation, robotics, and intelligent systems. The international orientation of the program prepares graduates for a global career, with courses taught in English and collaboration with university partners worldwide.

The program’s interdisciplinary nature ensures that students acquire a versatile skill set, suited for occupations in research and development, system design, and consulting in various sectors including automotive, aerospace, energy, and manufacturing. Graduates are equipped to contribute to technological innovation and sustainable development by applying advanced computational techniques to solve pressing engineering problems. With a solid foundation in scientific and engineering principles, complemented by project management and communication skills, students are well-prepared to take on leadership roles in academia and industry. The MSc in COMET at Saarland University represents a challenging and rewarding pathway for aspiring engineers and researchers committed to advancing the frontiers of technical systems through computational methods.

The Computational Engineering of Technical Systems (COMET) master's program at Saarland University is a comprehensive and interdisciplinary program designed to equip students with advanced knowledge and practical skills in computational modeling, simulation, and optimization of complex technical systems. This program aims to prepare graduates for innovative roles in industry and research, focusing on the integration of computer science, engineering, and applied mathematics. Throughout the course of study, students will delve into a broad range of topics including numerical methods, data analysis, machine learning, and high-performance computing, all tailored to solve real-world engineering challenges. The curriculum combines theoretical foundations with hands-on practical experiences, fostering an environment where students learn to develop efficient algorithms, simulate physical phenomena, and analyze large datasets to inform decision-making processes in engineering contexts.

Students will have the opportunity to specialize in areas such as automotive engineering, aerospace, energy systems, or manufacturing technology, depending on their interests and career goals. The program emphasizes interdisciplinary collaboration, encouraging students to work on practical projects, often in partnership with industry partners, to gain valuable insights into current technological advancements and market needs. Additionally, the program offers seminars, workshops, and opportunities for participating in research activities that contribute to the development of cutting-edge solutions for technical problems.

The faculty involved in the COMET program are experts in computational science, mechanical engineering, electrical engineering, and computer science, ensuring a rich educational environment supported by the latest research and technological developments. Graduates of the program will possess a strong foundation in modeling complex systems, programming, and data analysis, making them highly competitive in fields such as automotive industry, aerospace, robotics, renewable energy, and information technology. The program’s structure is designed to promote critical thinking, problem-solving, and innovative approaches to scientific and engineering challenges, preparing students not only for immediate employment but also for doctoral studies and long-term career development in academia or industry.

Program Requirements for Computational Engineering of Technical Systems (COMET) at Saarland University include a strong foundation in mathematics, engineering, and computer science. Applicants are required to hold a recognized university entrance qualification equivalent to the German Abitur. A relevant bachelor’s degree with a focus on engineering, computer science, or a related field is necessary for admission, demonstrating adequate coursework in mathematics, physics, and programming. Proficiency in English is essential, typically evidenced by TOEFL or IELTS scores meeting the program's minimum standards. The program emphasizes interdisciplinary skills; therefore, applicants should have knowledge in areas such as automation, electrotechnology, and mechanical engineering. Additionally, prior experience with numerical methods, simulation, and software development is advantageous.

The selection process considers academic performance, motivation, and relevant work or research experience. For international students, the ability to adapt to an intercultural environment and the motivation to pursue advanced research are important criteria. All candidates must submit a complete online application including official academic transcripts, language certificates, a CV, motivation letter, and references if available. The program values diversity and encourages applications from students with a background in engineering disciplines related to technical systems. Once admitted, students are expected to participate in coursework, projects, and research activities that develop their competencies in modeling, simulation, and control systems of technical processes. The curriculum also emphasizes teamwork, innovation, and practical problem-solving skills. Therefore, applicants should be prepared to engage actively with coursework and research elements in a collaborative setting.

The Computational Engineering of Technical Systems COMET program at Saarland University offers a comprehensive financing structure for prospective students. Tuition fees for international students are generally set at a level that covers administrative costs and academic resources, with specific fees typically outlined annually by the university. For the majority of master's programs at Saarland University, tuition is either free or modest, often around a few hundred euros per semester, although certain specialized programs may charge higher fees. In the case of COMET, detailed and up-to-date fee information can be obtained directly from the university’s official website or admissions office.

In addition to tuition fees, students should consider living expenses, which include accommodation, food, health insurance, study materials, transportation, and personal expenses. Saarland University benefits from its location in Saarbrücken, offering relatively affordable living costs compared to larger German cities. Students can access various support services, including student discounts, university scholarships, and financial aid programs, which can significantly reduce the financial burden.

Funding opportunities for international students are available through several channels. The DAAD (German Academic Exchange Service) provides numerous scholarships for highly qualified international students, which can cover partial or full tuition and living costs. Saarland University also offers internal scholarships based on academic merit or financial need. Additionally, students may explore external funding sources such as government grants from their home countries or European Union (Erasmus+) mobility grants, which facilitate semester exchanges or internships abroad.

Working while studying is an option for international students, subject to visa regulations. Typically, students are permitted to work up to 120 full days or 240 half days per year without special permission, providing additional financial support. Part-time jobs are available in Saarbrücken and surrounding areas, often in sectors like retail, hospitality, or research assistant roles within the university.

Students are encouraged to plan their finances carefully and seek advice from the university’s international office or student services. The university also offers workshops and counseling on financial planning, scholarship applications, and managing living expenses. Overall, while the costs associated with studying at Saarland University are manageable, strategic planning and leveraging available funding opportunities are essential for a successful and financially sustainable academic experience in the COMET program.

The Bachelor's degree program in Computational Engineering of Technical Systems (COMET) at Saarland University is a comprehensive interdisciplinary course designed to prepare students for a career at the intersection of engineering, computer science, and applied mathematics. This innovative program emphasizes the development and application of computational methods to analyze, simulate, and optimize complex technical systems across various engineering disciplines. Throughout the course, students acquire a solid foundation in mathematical modeling, numerical analysis, and programming, complemented by specialized knowledge in areas such as mechanical engineering, electrical engineering, and computer science. The program seeks to foster skills in designing efficient algorithms, using high-performance computing resources, and developing software solutions tailored to technical challenges. The curriculum includes foundational courses in mathematics, physics, and engineering principles, alongside advanced courses in computational methods, data analysis, and system modeling. Students also engage in practical projects and laboratory work, which provide hands-on experience with modern computational tools and techniques. An important aspect of the program is its focus on research and innovation, encouraging students to participate in ongoing research projects and to contribute to advancements in computational engineering. Interdisciplinary collaboration is promoted, enabling students to work in teams comprising peers from different technical backgrounds, reflecting the multifaceted nature of today's engineering problems. The degree aims to equip graduates with the technical expertise, problem-solving abilities, and innovative mindset necessary to develop new solutions for industry and society. Career opportunities for graduates include roles in research and development, software engineering, simulation and modeling, and systems analysis within sectors such as automotive, aerospace, manufacturing, energy, and information technology. The university also supports international mobility and exchange programs, providing students with opportunities to gain global experience. The program is taught predominantly in English, facilitating international cooperation and understanding. Upon completion, graduates receive a Bachelor of Science (B.Sc.) degree, which can serve as a stepping stone for further studies in master's programs or for immediate entry into professional roles. Overall, the Computational Engineering of Technical Systems COMET at Saarland University offers a rigorous, research-informed education designed to meet the evolving demands of modern engineering and technology.