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Masters Degrees in Engineering, Spain

We have 31 Masters Degrees in Engineering, Spain

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The University Master's Degree in Industrial Engineering (MEI) qualifies graduates to work as industrial engineers. The programme is divided into 120 ECTS credits. Read more
The University Master's Degree in Industrial Engineering (MEI) qualifies graduates to work as industrial engineers. The programme is divided into 120 ECTS credits. Industrial engineering is a profession with a long tradition and considerable prestige in Spain. The ability of graduates to integrate technology and to design, maintain and manage industrial processes means that they are in high demand on the labour market.

Student Profile

This master's degree is a continuation of the degrees in the field of industrial engineering, specifically the bachelor's degrees in industrial technology engineering, electrical engineering, industrial electronics and automatic control, mechanical engineering, chemical engineering and textile engineering.

It is also designed for holders of diplomas in industrial engineering and other engineering qualifications.

The personal and academic characteristics that are considered appropriate for students who want to take this master's degree are the following:
-A technical education and a desire for a career in the field of industry.
-Knowledge of basic materials and industrial technologies.
-The ability to analyse and assess the social and environmental impact of technical solutions.

Career Opportunities

The University Master's Degree in Industrial Engineering enables for professional practice in Spain. Graduates can find work in the following areas:
-Self-employment
-Management of production plants
-Industrial organisation
-Maintenance management
-Resource management
-Research and development
-Teaching

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The URV-UOC online Master's Degree in Computer Engineering and Mathematics (ECiM) offers interdisciplinary training in the areas of engineering and applied sciences. Read more
The URV-UOC online Master's Degree in Computer Engineering and Mathematics (ECiM) offers interdisciplinary training in the areas of engineering and applied sciences. The ECiM programme includes cutting-edge topics such as computer modelling and simulation, numerical methods, parallel and distributed computing, knowledge representation, networks and graphs, and applied optimisation. The aim of the degree is to prepare students for R&D positions in industry, research centres and universities. It is intended for graduates with various scientific and technical qualifications (computer engineering, mathematics, telecommunications engineering, industrial engineering, statistics, physics, etc.).

Students must complete a total of 60 ECTS credits, distributed as follows: 17 for compulsory subjects, 25 for optional subjects and 18 for the master's thesis. The ECiM is designed to be completed in one year (full-time students) or two years (part-time students). As the programme’s lecturers are active researchers in the fields they teach, they can help students to initiate research careers in computer engineering and mathematics.

Student Profile

This Master's Degree is aimed at candidates who previously obtained:
-Bachelor's degrees in Mathematics, Statistics, Physics and related fields.
-Bachelor's Degree in Computer Science, Telecommunications, Electronics, Industrial, Electrical, Mechanical, Aeronautical and related fields.

Career Opportunities

Gracuates in Inter-university Master's Degree in Computer Engineering and Mathematics are capable of working in:
-Research and development centres
-Companies working in the information and communication technologies
-Computing centres
-Universities

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The Master's Degree in Fluid Thermodynamics Engineering has a research track that focuses on the field of energy, its transformation, working fluids and processes. Read more
The Master's Degree in Fluid Thermodynamics Engineering has a research track that focuses on the field of energy, its transformation, working fluids and processes.

Student Profile

This master’s degree is designed for students with bachelor's or pre-EHEA degrees in chemical engineering, industrial engineering, chemistry, physics, chemical engineering, mechanical engineering, physical science, chemical science, etc. It is also open to graduates in fields related to thermodynamics engineering.

Applicants must have certain personal qualities in addition to the technical competencies required of the above qualifications. New students are expected to have a critical and open attitude towards knowledge, especially in the field of fluid thermodynamics engineering.

Career Opportunities

Graduates in the University Master's Degree in Fluid Thermodynamics Engineering are capable of working in research in industry, research and development laboratories, the efficiency and sustainability of technological development and the development of new fluids.

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The new Master in Engineering Physics of the Technical University of Barcelona- BarcelonaTech offers a one year intensive program in Engineering Physics. Read more

The new Master in Engineering Physics of the Technical University of Barcelona- BarcelonaTech offers a one year intensive program in Engineering Physics. We cover topics of Physics at the forefront of new technologies ranging from the nanotechnology to the emerging field of quantum technologies. To this end, the Master includes advanced courses on Statistical and Quantum Physics, Physics and Engineering of large facilities such as the synchrotron, and pathways to the physics of complexity in different areas. The Master is addressed to an international audience and thus it is conducted in English. 

Professional opportunities

At the beginning of the XXI century a new kind of engineering is emerging, as the Key Enabling Technologies of the European Union put forward recently. A new kind of professionals starts now to be needed for working in cutting-edge engineering. Our Master in Engineering Physics is intended to provide new generations with enough knowledge on Physics to capacitate them for working in wide areas, ranging from nanoengineering and nanoelectronics to quantum technologies.

Career prospects may include the following:

  • Achieving a doctoral degree in applied physics, materials, quantum many-body systems, numerical simulation, astrophysics, etc.
  • Participating in doctoral programs, R&D and innovation programs in companies, basic or applied research centers and universities.
  • Joining a company as a consultant or engineer on advanced topics which require advanced knowledge of Physics.
  • Working in highly specialized technical positions for controlling services such as the synchrotron, neutron sources, specialized instrumentation, etc.
  • Participating in (and promoting) spin-offs and other small technology-based companies.
  • Joining the education system for high-level training in the field of applied and fundamental physics.

Competencies

Generic competencies

Generic competencies are the skills that graduates acquire regardless of the specific course or field of study. The generic competencies established by the UPC are capacity for innovation and entrepreneurship, sustainability and social commitment, knowledge of a foreign language (preferably English), teamwork and proper use of information resources.

Specific competencies

  • Ability for solving problems in Physics and Engineering using advanced numerical tools, with a proper analysis of stability, accuracy and computational cost.
  • Knowledge of the properties of matter at the nanoscale, the optimal methods for synthesis of nanomaterials and their applications in nanotechnology.
  • To be able of determining the structure of matter and its properties at atomic and molecular level.
  • Knowledge of the main functional and structural applications of materials. Influence of the dimensionality. Ability of selecting the best materials for specific applications in Engineering.
  • Knowledge of complexity in different physical phenomena and at different scales.
  • Knowledge of large facilities in physics such as the synchrotron and neutron sources and their possible ranges of applicability to measure properties of materials.
  • Ability of managing with big sets of data using advance technologies such as machine learning.
  • Capacity of proposing new projects in science/technology and assuming their leadership. 


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The overall objective of this master's degree is to enable students to find effective solutions to problems in the field of electronic engineering and, specifically, to design electronic equipment and automated production systems, perform maintenance and control in production industries, provide technical advice, or join the sales departments of companies in the electronics sector. Read more
The overall objective of this master's degree is to enable students to find effective solutions to problems in the field of electronic engineering and, specifically, to design electronic equipment and automated production systems, perform maintenance and control in production industries, provide technical advice, or join the sales departments of companies in the electronics sector. For graduates who wish to undertake doctoral studies, this programme will also prepare them to do effective research in collaboration with national and international research groups.

Career Opportunities

Graduates in University Master's Degree in Electronic Systems Engineering and Technology are capable to work in different types of industry:
-Engineering consultancy
-Engineering consultancy management
-Management of instrumentation/sensors in production plants
-Maintenance management
-Sales department management
-Research and development: companies in the chemical, industrial, energy sectors, automobileetc.
-Research and development in technology-based companies
-Research and development in universities and research centres
-Entrepreneurship
-Teaching

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The Master's degree in Nuclear Engineering allows students to acquire a deep degree of knowledge in nuclear energy’s theory and practical fundamentals as well as in the technology that is associated to the production of energy by means of nuclear fission’s mass production. Read more

The Master's degree in Nuclear Engineering allows students to acquire a deep degree of knowledge in nuclear energy’s theory and practical fundamentals as well as in the technology that is associated to the production of energy by means of nuclear fission’s mass production.

The Master benefits itself from the existing collaboration with ENDESA and with the -CSN- (Nuclear Security Council). Furthermore, other institutions that are involved in the sector’s research ambit also participate in the Master, both in the educational ambit and in reception of students that are willing to carry out internships. An example of these institutions would be the CIEMAT and Spanish companies such as ENUSA, TECNATOM, ENSA, Initec-Westinghouse and ENRESA, amongst others.

The master is addressed to people with scientific-technological university studies in the following sectors:

  • Engineering: Industrial Technologies, Materials, Energy, Chemistry, Mechanics and Electricity.
  • Other Engineering studies and bachelor Engineering degrees.
  • Degrees: Physics, Chemistry

Studies’ organization

This master degree is a combination of theory and practical activities (lecturing classes, autonomous study, resolution of exercises, use of calculus codes and practical sessions in laboratories) with guided visits to several nuclear installations.

An important part of the students’ learning process will come from the resolution of a series of synthesis exercises or transversal projects, by means of PBL activities: Every quarter there will be one subject that will be dedicated to the realization of a project, case or problem, with a transversal character, and with the coordinated participation of the teachers from the different subjects that will be involved.

During the last quarter, the student will carry out a compulsory internship in a company from this sector or in a research and development center. Through the before mentioned quarter, students will also carry out their End of Master Project, preferably with a topic that is related to their internship period.

Professional opportunities

In Europe, nuclear engineering graduates are in high demand, and not just because of the need to replace those who retire from employment at European nuclear power plants. Economic globalization and the growing presence of European companies in a variety of projects have contributed considerably to the need for qualified staff within the sector. The increased demand for qualified staff that is foreseen is a cause for concern not only for Spanish companies but also for the Nuclear Safety Council, the Spanish regulatory body.

This master’s degree focuses on preparing students for positions of responsibility within the nuclear power sector and producing qualified graduates for employment in research and development, and even teaching, in this field.

Competencies

Generic competencies

Generic competencies are the skills that graduates acquire regardless of the specific course or field of study. The generic competencies established by the UPC are capacity for innovation and entrepreneurship, sustainability and social commitment, knowledge of a foreign language (preferably English), teamwork and proper use of information resources.

Specific competencies

On completion of the course, students will:

  • Have acquired a thorough understanding of the theoretical and practical fundamentals of nuclear engineering and technology for producing energy from nuclear fission.
  • Have a clear, comprehensive view of the entire chain of energy conversion of nuclear fuel, from uranium mining to spent nuclear fuel management.
  • Be familiar with the life cycle of facilities, from the construction to the decommissioning of a nuclear plant.
  • Have a deep understanding of nuclear regulations and safety.
  • Have developed a strategic view of the sector and the ability to understand problems and make decisions.


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The master's degree in Space and Aeronautical Engineering is aimed at graduates in aerospace engineering or related physical sciences and engineering who wish to improve their skills and knowledge. Read more

The master's degree in Space and Aeronautical Engineering is aimed at graduates in aerospace engineering or related physical sciences and engineering who wish to improve their skills and knowledge. It provides advanced training in the field of space systems and aeronautical engineering that is scientific, technical and practical in nature and will allow students to work towards a professional and/or research career in the aerospace industry. The master's degree is aimed graduates who will go on to seek employment in the aerospace industry or to pursue a research career in this field.

Professional opportunities

The master's degree allows students to plan their training and to focus their professional careers in the aerospace industry on areas such as space missions, space propulsion, aircraft propulsion, aircraft design, aircraft maintenance, fluid mechanics, materials research, airport infrastructure , air traffic management, wind energy, aerodynamics, civil engineering aerodynamics, automotive engineering and the design and civil applications of UAVs.

The training graduates receive will enable them to join R&D departments in the aerospace industry and related industries.

Competencies

Generic competencies

Generic competencies are the skills that graduates acquire regardless of the specific course or field of study. The generic competencies established by the UPC are capacity for innovation and entrepreneurship, sustainability and social commitment, knowledge of a foreign language (preferably English), teamwork and proper use of information resources.

Specific competencies

  • The ability to manage activities that involve projects and/or operations in which technology and organization have interacted effectively and efficiently.
  • The ability to plan, organize and control projects in the aerospace industry, especially innovation (R&D) and process improvement projects.
  • The ability to develop and submit a research proposal according to the criteria of the international scientific community.
  • The ability to analyze and synthesize cross-disciplinary aerospace knowledge applied to aeronautical projects.
  • The ability to use knowledge of applied computational fluid mechanics appropriately in solving compressible aerodynamics problems.
  • The ability to identify the laws of aerodynamics with regard to external flow and flight regimes and apply them in numerical and experimental aerodynamics.
  • The ability to apply knowledge appropriately in processing large quantities of results of numerical calculations applied to analysis and design of aeroelasticity and aerodynamics.
  • The ability to apply knowledge appropriately in the areas of advanced aerodynamics and aeroelasticity applied to analysis and design of aerospace structures.
  • The ability to write a master's thesis and present and defend it to an examination committee.


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This master's degree aims to provide students with professional training in computer engineering, telematic engineering and related ambits that specialise in Computer Security and Artificial Intelligence. Read more
This master's degree aims to provide students with professional training in computer engineering, telematic engineering and related ambits that specialise in Computer Security and Artificial Intelligence. Specifically, the master's degree:
-Provides students with the skills to use advanced ICT for designing and implementing safe intelligent systems.
-Provides students with the skills to use advanced ICT to ensure the safety of information in applications, services and ICT systems and the privacy of their users.
-Provides students with the skills to lead, manage and carry out ICT systems projects based on Artificial Intelligence.
-Provides students with the skills to innovate and conduct research in the field of Computer Security and Artificial Intelligence.

Student Profile

Students wishing to study the master's degree should possess the following personal and academic qualities:
-Bachelor's degree in computer engineering
-Knowledge of Engineering Programming and Mathematics.
-Personal maturity and skills deriving from their previous university training that will be strengthened and improved further by the master's degree (e.g. work planning, knowledge of information research tools, oral and written communications skills, English, the ability to work in a team or autonomously).

Career Opportunities

The Master's produces professionals with the skills to work in the following positions, among others:
-Head of Computer Security and Artificial Intelligence projects.
-Management of groups of developers for Computer Security and Artificial Intelligence projects.
-Analyst of advanced ICT applications, particularly in the ambits of Computer Security and Artificial Intelligence.
-Academic and research career in universities and research centres.

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The aim of the course is to complement training in the field of engineering skills needed for management, organization and management of people, projects, departments and technological and industrial enterprises, specially, the operation and management of innovation. Read more
The aim of the course is to complement training in the field of engineering skills needed for management, organization and management of people, projects, departments and technological and industrial enterprises, specially, the operation and management of innovation.

Student Profile

The Master is aimed at graduates with previous training in the field of Engineering, having thus previous knowledge in the field of economics and business and a solid education in basic subjects such as mathematics and statistics, and who want to expand their previous technical knowledge with advanced knowledge on the management of technology companies, the areas of operation, management and exploitation of innovation and the economy generally.

This Master is also aimed at graduates in the fields of science, with screening technology and professional environments strong tendency to innovation. In this case, they propose to take a number of additional training to ensure the homogeneity of the previous training of the students who attended the program.

Career Opportunities

The Master's Degree in Technology and Engineering Management provides graduates the training to be qualified for jobs as:
-Product manager
-Logistics Responsible
-Innovation manager
-Project manager
-Technical Director
-Technical Supervisor
-Responsible for finance management, marketing, logistics and human resources
-Creation of their own enterprises
-Realization of projects on request

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This master's degree aims to take graduates beyond their bachelor’s degree and acquire a higher level of expertise in chemical engineering. Read more
This master's degree aims to take graduates beyond their bachelor’s degree and acquire a higher level of expertise in chemical engineering. Graduates will be highly trained in designing products and processes related to chemical engineering. They will also have a strong professional grounding because their work placement and master's theses will be conducted primarily in the chemical industry (i.e. in companies and organisations outside the university).

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The aim of the master is to prepare professionals in the field of energy, environment and sustainable production with rigorous scientific and technical… Read more
The aim of the master is to prepare professionals in the field of energy, environment and sustainable production with rigorous scientific and technical background, capable of providing a flexible and multidisciplinary response to the challenges of building a sustainable society through the conception, design, evaluation, implementation and management of environmentally friendly processes, consumption of natural resources and health.

Career Opportunities

The University Master's Degree in Environmental Engineering and Sustainable Energy provides students the training to be qualified for jobs as:
-Responsible of Energy, Enviroment and Quality Departments
-Responsible of Energy Production Plants (cogeneration, combined cycles, wind farms, photovoltaic farms, industrial organization)
-Responsible of Waste Treatment Plants
-Responsible of Wastewater Treatment Plants
-Technician in Engineering, Consulting and Certification Companies
-R&D&I Laboratories and Institutes
-Secondary and High Education Teaching
-Creation of their own enterprises
-Realisation of projects on request

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The aim of this programme is to train new professionals in the field of nanotechnology, materials and chemical engineering. Read more
The aim of this programme is to train new professionals in the field of nanotechnology, materials and chemical engineering. It is of particular interest for graduates in any of the branches of the experimental sciences and technologies (chemistry, chemical engineering, biochemistry, biotechnology, physics, quantum chemistry, biological chemistry, microbiology, etc.) and it clearly prepares them for future research.

The students will acquire the skills required for them to join universities, research institutes, industry and services with a strong sense of innovation, development and entrepreneurial vision.

Student Profile

The Master’s Degree is designed for candidates holding a bachelor’s degree in any of the branches of the experimental sciences and technologies: chemistry, chemical engineering, biochemistry, biotechnology, physics, materials, quantum chemistry, biological chemistry, microbiology, etc.). It clearly prepares students for future careers in research.

Career Opportunities

Graduates in the University Master's Degree in Nanoscience, Materials and Processes: Chemical Technology at the Frontier are capable of working in:
-Research at universities and research institutes. The master's degree is a requirement for being admitted to a PhD programme and the key to a future career as a researcher.
-Research, development and innovation in industries based on new scientific and technical knowledge (biotechnology, microelectronics, telecommunications, energy storage, new materials, etc.) and traditional industries (chemical, pharmaceutical, biomedical, ceramics, textiles, etc.) interested in innovation.
-Management, control and strategic planning of nanotechnological techniques, products and processes in the electronics industry, telecommunications, biomedicine, biotechnology, pharmacology, etc.

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The Master's degree in Aerospace Science and Technology provides advanced training in the sciences and technology that are currently most widely used and applied in the fields of aeronautics and space exploration. Read more

The Master's degree in Aerospace Science and Technology provides advanced training in the sciences and technology that are currently most widely used and applied in the fields of aeronautics and space exploration. Graduates of this master’s degree will have been trained in an interdisciplinary area of knowledge that includes the study of theoretical and practical groundwork, techniques, methods and processes, and will be skilled at promoting, defining and managing innovative research projects.

The whole program consists of a total of 90 ECTS credits distributed in three semesters of 30 credits each. Students may enrol the program in September (mostly recommended) or February. Fall semester is devoted to mandatory courses and spring semester to elective courses. Once students have completed 60 credits in courses, the Master Thesis (30 credits) is performed at a University department or at an aerospace company.

Graduates from this Master's degree will be experts qualified to work in:

- University departments, institutes or research centers in order to produce a doctoral thesis.

- R&D&I departments in industry in the aerospace field or similar.

This Master is organized by the UPC Castelldefels School of Telecommunication and Aerospace Engineering (EETAC) with the collaboration of the Centre National d'Études Spatiales (CNES), the European Space Agency (ESA), and the Universitat Autònoma de Barcelona (UAB).

Professional opportunities

Graduates from this master’s degree will be experts qualified to work in:

· University departments, institutes or research centers in order to produce a doctoral thesis.

· R&D&I departments in industry in the aerospace field or similar.

Competencies

Generic competencies

Generic competencies are the skills that graduates acquire regardless of the specific course or field of study. The generic competencies established by the UPC are capacity for innovation and entrepreneurship, sustainability and social commitment, knowledge of a foreign language (preferably English), teamwork and proper use of information resources.

Specific competencies

On completion of the course, students will be able to:

  • Demonstrate in-depth knowledge of the theoretical and experimental tools used in different areas within the aerospace field.
  • Use scientific programming techniques and basic and advanced numerical methods competently.
  • Demonstrate advanced knowledge of the most relevant physical aspects of aerospace systems.
  • Demonstrate in-depth knowledge of the different types of materials used in the construction of aerospace vehicles.
  • Demonstrate knowledge of the tools, devices and systems that enable the analogue or digital conditioning of signals.
  • Demonstrate an up-to-date awareness of the main characteristics of international aerospace research.
  • Demonstrate broad knowledge of R&D&I activities in the companies in the sector in this region.
  • Define the context and the variables that affect research projects.
  • Approach research problems consistently and with good scientific working methods.
  • Show initiative and originality in considering new approaches to an open problem and in considering new problems.
  • Produce a doctoral thesis.
  • Understand the dynamic of the artificial satellites orbiting the Earth and have a detailed and objective vision of the capacities of very low-mass satellites.
  • Calculate interplanetary trajectories.
  • Understand the concepts of analysis and design of controllers for uncertain systems.
  • Demonstrate detailed knowledge of the basic structure of the data bus of artificial satellites and the atmospheric phenomena that most affect aerial operations.
  • Demonstrate knowledge of the differences in behavior of materials on a macro- and a nanoscale and identify the specific characteristics of nanoscale processes for the conceptual design of sensors, materials and support systems for life in space.
  • Understand the characteristics of platforms for obtaining microgravity and the behaviour of different physical systems in microgravity.
  • Design an experiment to carry out in parabolic flight.
  • Understand the operation of UAVs and the rigorous formulation of measurement algorithms and how to guarantee their quality.
  • Design and implement automatic measuring systems and show knowledge of the tools, devices and systems that enable the conditioning of analogue and digital signals.
  • Demonstrate knowledge of the systems that support human life on inter-planetary missions and the main elements of the design of a life support system.
  • Design electronic on-board equipment in which microtechnologies play an important role.
  • Categorise satellite communication systems and demonstrate knowledge of the characteristics of DVB-S, DVB-S2 and DVB-RCS systems. 


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The main aim of this master’s degree is to train specialists in the field of information security who can respond to the growing demand of companies, institutions and universities. Read more
The main aim of this master’s degree is to train specialists in the field of information security who can respond to the growing demand of companies, institutions and universities. Students are provided with specialized knowledge and high-level competencies in three basic areas of the security of the information and communication technologies: network and systems security, security of applications and services, and security management and auditing.

Career opportunities

Students can find career opportunities as experts in industry and the academic world, R&D, research and managerial positions.

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The Data Science Program will prepare you to design and build data-driven systems for decision-making in the private or public sector. Read more

The Data Science Program will prepare you to design and build data-driven systems for decision-making in the private or public sector.

Program description

The digital revolution brings with it an explosion of data that carries significant potential value for businesses, science, and society.

As data becomes easily available as never before, so too does its volume grow, and extracting useful quantitative insights becomes more and more challenging. 

The Barcelona GSE Master in Data Science prepares its graduates to design and build data-driven systems for decision-making in the private or public sector, offering a thorough training in predictive, descriptive, and prescriptive analytics.

The curriculum will guide students from modeling and theory to computational practice and cutting edge tools, teaching skills that are in growing global demand. 

Data Science students will be armed with a solid knowledge of statistical and machine learning methods, optimization and computing, and the ability to spot, assess, and seize the opportunity of data-driven value creation.

Students will learn how to apply classroom examples using real data and answering concrete business questions from the perspectives of different industries. Through an independent master's project and the opportunity for industrial practicum work conducted with local businesses, students can have the opportunity to solve actual analytics problems hands-on.

Our courses are taught by leading academics and researchers in the fields of Economics, Operations, and Statistics, as well as experienced professionals from the analytics industry.The program also invites guest speakers and entrepreneurs working at the frontiers of the Data Science.

Degree

Upon successful completion of the program, students will receive a Master Degree in Data Science awarded jointly by Universitat Autònoma de Barcelona (UAB) and Universitat Pompeu Fabra (UPF). The degree requires the successful completion of 60 ECTS (European Credit Transfer System) credits of graduate courses (6 credits are equivalent to a 40 hour course), some compulsory and some elective. The students' final program must be discussed with and approved by the Master Director.

Who hires Data Science Graduates?

  • Consumer Goods, E-commerce, Entertainment, Pharmaceutical, and Telecommunications Industries
  • Logistics and Transportation Industries
  • Finance and Insurance Industry
  • Consulting and Research Organizations
  • Banking and Public Institutions

Examples of recent professional placements:

  • Accenture - Consultant (Barcelona)
  • Agoda - Data Scientist (Bangkok, Thailand)
  • Criteo - Business Intelligence Analyst (Barcelona)
  • Kernel Analytics - Data Scientist (Barcelona)
  • King - Junior Data Scientist (Barcelona)
  • Morgan Stanley - Quantitative Model Developer (Budapest, Hungary)
  • Nine Connections - Machine Learning Developer (Amsterdam, Netherlands)
  • Rhode Island Innovative Policy Lab - Data Scientist (Providence, RI, USA)
  • Stratagem Technologies - Reinforcement Learning Research (London, UK)
  • UNICEF - Monitoring and Evaluation Specialist (Kinshasa, Congo)




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