Master of Science in Computational Engineering

Do you want to solve engineering challenges by using programming and computer modelling? Study Computational Engineering at UiS!

Updated on
About the programme
Duration

2 years (4 semesters)

Language of instruction

English

ECTS credits

120

Start of studies

August every year

A master's degree in Computational Engineering will give you knowledge and expertise in engineering, programming and computer modelling. The skillset of Computational Engineering is at the intersection between engineering and data science and will make you well equipped to contribute to the digitization and AI implementation that is happening across the industry and the globe. 

If you have a bachelor's degree in engineering (or equivalent) and want skills in how you can combine modern data-driven or machine learning techniques, mathematical modelling and programming to solve engineering challenges, then this is the programme for you. 

  • You will learn how to use open source programming languages such as Python and its vast library of modules to develop mathematical and machine learning models to automize workflows, and to learn how to apply mathematical and numerical models to analyse complex and uncertain systems. These insights are used to improve decision-making in a range of sectors from health technology to energy and energy transition.  
  • In the programme, you will meet students from different engineering backgrounds.
  • We have four compulsory subjects where the focus is on modelling, programming, machine learning, and decision support.
  • In our subjects we use project work, and you will have opportunities to work with realistic problems and learn how to present and communicate the results professionally.
  • The rest of the study programme consists of recommended electives, where you can choose subjects that best suit your interests and/or engineering background. 

The study programme is international; Norwegian and international students study together.  

Revised study plan and course descriptions for the academic year 2025/2026 will be published 1 February, 2025.

Career prospects

The use of digital technology is rapidly increasing and can be seen everywhere. Computational Engineers are crucial in developing a society where the usage and integration of data is a significant activity, because they have specific knowledge of the engineering aspects (domain knowledge) and computational skills to take the necessary digitalisation steps.

Modelling skills and programming are necessary in almost every industry.
Some examples of industries and businesses where students can find employment are: Energy, consulting and service companies, hospitals and other public agencies.

A Master’s degree in Computational Engineering gives a solid foundation for admission to PhD studies in the areas relevant to the chosen academic specialisation. In particular, the PhD studies in Energy and Petroleum Technology as well as in Information Technology, Mathematics and Physics.

Learning outcomes

All study programmes at the UiS have a set of defined learning targets. Read more about the learning outcome for this study programme.

After having completed the master’s programme in Computational Engineering, the student shall have acquired the following learning outcomes, in terms of knowledge, skills and general competences:

Knowledge

K1: Can demonstrate the competence in the field of uncertainty quantification and advanced modelling for decision support. This means that the candidate has the ability to develop mathematical models that account for uncertainties contained in incomplete data and information and provide the basis for improved understanding and interpretation of data as well as for decision support.

K2: Has knowledge of a range of mathematical and data science models to be able to determine suitable mathematical formulation to describe a system.

K3: Has knowledge of numerical solution methods to be able to quantify limitations in the mathematical models and the numerical errors introduced by the solution methods.

Skills

S1: Is able to analyse and act critically to different sources of information and apply them to structure and formulate professional and scientific reasoning according to modelling, uncertainty quantification, simulation, optimization and decision support.

S2: Has detailed knowledge and experience of programming in at least one high level programming language. Develop custom modelling programs for specific decision- or optimization situations.

S3: Can collect, analyse and critically evaluate suitable datasets to test models. Tune model parameters using data and expert knowledge. Perform sensitivity analysis of model parameters to generate additional insights and understanding.

S4: Is able to find the right balance between a model's usefulness (how credible is the understanding generated by the model) and manageability (any analysis must be completed within given time and resource constraints).

S5: Can carry out an independent, limited research or development project under supervision and in accordance with applicable norms for research ethics.

General Competence

G1: Is able to develop hypotheses and suggest systematic ways to test these using mathematical models.

G2: Can communicate in a professional way about scientific problems, decisions, results of data, uncertainty, and modelling analysis -both to specialists and to the general public.

G3: Is able to use mathematical modelling as a tool in a wide range of problems and applications in varying disciplines and contribute to innovation.

G4: Can analyse relevant academic, professional and research ethical problems.

Study plan and courses

Already a student? Find the full study programme description and study plan here
  • Compulsory courses

    • Decision Analysis with Artificial Intelligence Support

      Year 1, semester 1

      Decision Analysis with Artificial Intelligence Support (MOD500)

      Study points: 10

    • Modeling and Computational Engineering

      Year 1, semester 1

      Modeling and Computational Engineering (MOD510)

      Study points: 10

    • Fundaments of Machine Learning for and with Engineering Applications

      Year 1, semester 2

      Fundaments of Machine Learning for and with Engineering Applications (MOD550)

      Study points: 10

    • Data-driven Modeling of Conservation Laws

      Year 1, semester 2

      Data-driven Modeling of Conservation Laws (MOD600)

      Study points: 10

    • Sustainable Entrepreneurship

      Year 2, semester 3

      Sustainable Entrepreneurship (MSB415)

      Study points: 10

    • Master's Thesis in Computational Engineering

      Year 2, semester 3

      Master's Thesis in Computational Engineering (MODMAS)

      Study points: 30

  • Elective courses 1st and 2nd semester

    • Introduction to Data Science

      Year 1, semester 1

      Introduction to Data Science (DAT540)

      Study points: 10

    • Probability and Statistics 2

      Year 1, semester 1

      Probability and Statistics 2 (STA500)

      Study points: 10

    • Computational Fluid Dynamics (CFD)

      Year 1, semester 2

      Computational Fluid Dynamics (CFD) (MSK610)

      Study points: 10

    • Modeling and Control for Automation Processes

      Year 1, semester 2

      Modeling and Control for Automation Processes (PET575)

      Study points: 10

  • Other elective courses 1st and 2nd semester

    • Computational Reservoir and Well Modeling

      Year 1, semester 1

      Computational Reservoir and Well Modeling (PET510)

      Study points: 10

    • Economics and Decision Analysis for Engineers

      Year 1, semester 1

      Economics and Decision Analysis for Engineers (PET685)

      Study points: 10

    • Machine Learning

      Year 1, semester 2

      Machine Learning (ELE520)

      Study points: 10

    • Reservoir Modelling and simulation

      Year 1, semester 2

      Reservoir Modelling and simulation (GEO506)

      Study points: 10

  • 3rd semester at UiS or Exchange Studies

    • Courses at UiS 3rd semester

      • Elective courses 3rd semester

        • Image Processing and Computer Vision

          Year 2, semester 3

          Image Processing and Computer Vision (ELE510)

          Study points: 10

        • Integrated Reservoir Management: From data to decisions

          Year 2, semester 3

          Integrated Reservoir Management: From data to decisions (GEO608)

          Study points: 10

        • Developing Research and Presentation Skills

          Year 2, semester 3

          Developing Research and Presentation Skills (GEO620)

          Study points: 10

        • Statistical Learning

          Year 2, semester 3

          Statistical Learning (STA530)

          Study points: 10

      • Other elective courses 3rd semester

        • Discrete Simulation and Performance Analysis

          Year 2, semester 3

          Discrete Simulation and Performance Analysis (DAT530)

          Study points: 10

        • Introduction to Data Science

          Year 2, semester 3

          Introduction to Data Science (DAT540)

          Study points: 10

        • Practical Training in Computational Engineering or Energy, Reservoir and Earth Sciences

          Year 2, semester 3

          Practical Training in Computational Engineering or Energy, Reservoir and Earth Sciences (GEO680)

          Study points: 10

        • Finite Element Methods, Advanced Course

          Year 2, semester 3

          Finite Element Methods, Advanced Course (MSK540)

          Study points: 10

        • Statistical Modeling and Simulation

          Year 2, semester 3

          Statistical Modeling and Simulation (STA510)

          Study points: 10

    • Exchange 3rd semester

Academic requirements

A bachelor's degree in engineering or equivalent is required. The degree must include at least 10 ECTS credits in computer sciences or computer engineering courses, or an introductory course for engineers including programming. Applicants must have the equivalent of 25 ECTS credits in mathematics, 5 ECTS credits in statistics and 7,5 ECTS credits in Physics.

Admission to this master's programme requires a minimum grade average comparable to a Norwegian C (according to ECTS Standards) in your bachelor's degree. Applicants with a result Second-class lower Division or lower are not qualified for admission.

Supplementary rules for admission (PDF)

Application and admission

Student life at UiS

Student exchange

By going on exchange to one of our partner institutions abroad as part of your studies, you will have an opportunity to get a unique education. In addition to improving your career opportunities, you grow as a person and gain the ability to greater reflect on the topics you study as part of your degree. All about exchange

Schedule for the exchange

Students can go on a study abroad experience during the 3rd semester of the master's programme in Computational Engineering.

The 3rd semester consists of 30 ECTS credits of flexible courses and electives. During the exchange semester you can choose courses relevant to the master programme, and also depending on personal interests and career opportunities. The courses you want to take abroad must be approved by the department. It is important that the courses from abroad not overlap with courses you have already taken. An advice is to think about your professional career and your fields of specific interest. You must choose at least one non-science/technological course equivalent to 5-10 ECTS (e.g. economics, languages, ethics, project management, green transition or similar).

More opportunities

In addition to the recommended universities listed below, UiS has a number of agreements with universities outside of Europe that are applicable to all students at UiS, provided that they find a relevant course offering. Within the Nordic region, all students can use the Nordlys and Nordtek networks.

Find out more

Svalbard
Students may choose to take courses at UNIS in Svalbard. More information here.

Contact your study adviser at the Faculty if you have questions about guidance and pre-approval of courses.

Karina Sanni

General questions about exchange:

Go to the exchange guide in the Digital student service desk

Student exchange

  • All countries

    Aalborg Universitet

    Aalborg Universitet (AAU) er kjent for å benytte seg av problembasert læring i grupper, noe som kan by på en spennende læringsprosess.

    Colorado School of Mines

    Colorado School of Mines (CSM) er et offentlig universitet kjent verden over for sin gode ingeniørutdannelse.

    Griffith University

    Griffith University er en populær utvekslingsdestinasjon for UiS-studenter. Universitetet er et særlig godt valg for studenter innen musikk/dans, hotell/turisme og business.

    Politecnico di Milano University

    Politecnico di Milano er Italias største tekniske universitet med om lag 40.000 studenter og er høyt rangert på en rekke internasjonale rankinglister.

    Technical University of Munich

    The Technical University of Munich, also known as TUM, accounts for major advancements in the field of natural sciences. TUM is one of the best universities in Germany and has several awarded scientists and Nobel Prize winners. The Technical University of Munich strives for excellent teaching and research quality.

    Uppsala universitet

    “In Uppsala you walk in the gardens of Linnaeus, follow in the footsteps of Nobel laureates, and at the same time meet today’s and tomorrow’s smartest teachers and researchers.”

  • Australia

    Griffith University

    Griffith University er en populær utvekslingsdestinasjon for UiS-studenter. Universitetet er et særlig godt valg for studenter innen musikk/dans, hotell/turisme og business.

  • Danmark

    Aalborg Universitet

    Aalborg Universitet (AAU) er kjent for å benytte seg av problembasert læring i grupper, noe som kan by på en spennende læringsprosess.

  • Italia

    Politecnico di Milano University

    Politecnico di Milano er Italias største tekniske universitet med om lag 40.000 studenter og er høyt rangert på en rekke internasjonale rankinglister.

  • Sverige

    Uppsala universitet

    “In Uppsala you walk in the gardens of Linnaeus, follow in the footsteps of Nobel laureates, and at the same time meet today’s and tomorrow’s smartest teachers and researchers.”

  • Tyskland

    Technical University of Munich

    The Technical University of Munich, also known as TUM, accounts for major advancements in the field of natural sciences. TUM is one of the best universities in Germany and has several awarded scientists and Nobel Prize winners. The Technical University of Munich strives for excellent teaching and research quality.

  • USA

    Colorado School of Mines

    Colorado School of Mines (CSM) er et offentlig universitet kjent verden over for sin gode ingeniørutdannelse.

Frequently asked questions

Is it possible to take the study as a distance student?

Some of the subjects included in the study program may be taken digitally as a distance student. However, several of the subjects on the program have compulsory laboratory activities, which requires that one is present. You can always consult with the study coordinator or lecturers if you are wondering if a specific course can be completed digitally.

Can I take this study part time?

We do not have a separate part-time plan for this study. But you get the right to study for 3 years by admission to the master's program, with the possibility of a fourth year to complete. This means that you can set up an individual education plan that is not a full-time study. It is a good idea to contact the study coordinator so that you can make a plan together.

When and where can I travel on exchange?

3rd semester as an exchange semester, ie the second year of the study is arranged for exchange. We have several agreements in and outside Europe, and you can check the updated list of universities you can travel to here:
https://student.uis.no/studieprogram-og-emner/ingenior-og-sivilingenior/toarig-master-i-teknologi-siv-ing/computational-engineering/utvekslingsmuligheter/

Can I take courses in Svalbard as part of the degree?

Yes, as a student with us, we recommend that you take courses at the University Center on Svalbard (UNIS) as part of your degree in Computational Engineering. UNIS has available courses in both the spring semester, the autumn semester and the summer course. Feel free to contact UNIS contact Karina Sanni: karina.sanni@uis.no or check UNIS's website for more information.

Can I apply for single courses at UiS?

Yes, we have several single courses that you can apply for.

Contact

Adviser
51831145
Faculty of Science and Technology
Faculty Administration TN
Kontor for utdanningsadministrative tjenester
Associate Professor
E 301-B
Faculty of Science and Technology
Department of Energy Resources