Master s programmes taught in English

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Master´s programmes

taught in English

2016/2017

■ Chemical and Pharmaceutical Engineering

■ Technical Chemistry

■ Biotechnology

■ Geotechnical and Hydraulic Engineering

■ Information and Computer Engineering

■ Computer Science

■ Mathematics

Coming soon:

■ Advanced Materials Science

■ Software Engineering and Management

■ Biomedical Engineering

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Master‘s programme in

Chemical and Pharmaceutical Engineering

Career Opportunities

The interdisciplinary qualifi cation profi le of this master´s degree enables graduates to work in a wide range of positions in the fi eld of chemical and pharmaceutical engineering as well as in environmental technology. Possible areas of employment include:

■ Research, development, process planning and production in the chemical and pharmaceutical industries

■ Environmental management positions in industry and with government authorities ■ Research and teaching at universities and research institutes

Fact-Box

n Study duration: 4 Semesters

n ECTS Credits: 120

n Final degree:

“Diplom-Ingenieur” (Dipl.-Ing.) which is equivalent to a Master of Sci-ence degree (MSc).

The programme is taught in English.

Contact:

[email protected]

► www.tugraz.at

► www.nawigraz.at

Registration:

For the master´s programmes, an admission process is required. To get more information on the pro-cess including the required docu-ments, deadlines, cost, etc. please follow the link below:

► http://register.tugraz.at/cpe

The master´s programme in Chemical and Pharmaceutical Engineering offers an interdiscipli-nary curriculum at the intersection between the natural sciences chemistry and pharmacy and the engineering science chemical and process engineering. A fundamental understanding of engineering and associated skills is provided, enabling students to carry out high-quality re-search and to develop innovative systems based on scientifi c principles. Within the master’s programme students have the opportunity to specialize either in chemical or pharmaceutical engineering. “Intelligent“ pharmaceutical products can be tailored to the age, gender and life-style of individual patient. Modern drugs will be produced and delivered in a personalized way, revolutionizing medical care. In this context, shorter development times and reduced production costs are critically needed, which is addressed by the fi eld of pharmaceutical engineering. Also the future chemical industry requires cleaner, highly sustainable and more economical chemical processes, which is addressed by the fi eld of chemical engineering.

COURSES _I Semester with ECTS _II _III _IV

Compulsory Courses Chemical and Pharmaceutical Engineering 10 23 -

-Advanced Compulsory Courses Specialization „Chemical Engineering”

or “Pharmaceutical Engineering“ <--26-->

Restricted Elective Courses „Chemical Engineering”, “Pharmaceutical

Engineering“ and “Technical Chemistry” <--18-->

Soft Skills <--5-->

Optional Elective Courses <--8-->

Master Thesis 30

Sum 30 30 30 30

Programme in Chemical and Pharmaceutical Engineering

COMPULSORY COURSES TYPE ECTS

Transport Processes I VU 3

Transport Processes II VU 3

Chemical Reaction Engineering I VU 4

Mass- and Energy Balances VU 3

Chemical Thermodynamics I VO 3

Chemical Thermodynamics I UE 1

Mass Transfer Unit Operations VO 4,5

Mass Transfer Unit Operations UE 2

Particle Technology I VO 4,5

Particle Technology I UE 2

Chemical Reaction Engineering Laboratory LU 1

Mass Transfer Unit Operations Laboratory LU 1

Particle Technology Laboratory I LU 1

ADVANCED COMPULSORY COURSES TYPE ECTS

SPECIALISATION: Pharmaceutical Engineering

Pharmaceutical Engineering I VU 4

Pharmaceutical Engineering II VU 4

Pharmaceutical Process and Plant Engineering VO 3

Quality by Design VO 2

Synthetic Drugs VO 3

Drugs of Biological Origin VO 3

Basics of Pharmaceutical Preparations LU 4

Preformulation VO 3

ADVANCED COMPULSORY COURSES TYPE ECTS

SPECIALISATION: Chemical Engineering

Particle Technology II VU 4

Process Intensifi cation and Hybrid Processes VO 3

Process Intensifi cation and Hybrid Processes UE 1

Chemical Reaction Engineering II VU 3

Introduction into Process Simulation and

Process Design VO 2

Introduction into Process Simulation and

Process Design UE 2

Thermodynamics VO 6

Thermodynamics UE 5

ELECTIVE/RESTRICTED ELECTIVE COURSES

Elective Course „Advanced Technical Chemistry“ Courses from the three catalogues of elective courses

■ Chemical Engineering

■ Pharmaceutical Engineering

■ Technical Chemistry

with a workload of 18 ECTS are to be completed. From one of these three catalogues of elective courses, at least 12 ECTS credit points are to be elected. Students who have selected the specialisation „Chemical Engineering“ can also select the advanced compulsory courses of the specialization „Pharmaceutical Engineering“. Students who have selected the specialization „Pharmaceutical Engineering“ can also select the advanced compulsory courses of the specialization „Chemical Engineering“.

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The master´s programme Technical Chemistry combines the knowledge of molecular science ap-plied chemistry, and technology. Particular topics are renewable resources, energy storage/trans-formation, food technology, and polymer science.

Career Opportunities

The Master in Technical Chemistry offers an ideal combination of research, development, and application.

Technical chemists are able to contribute to the research areas of synthesis, analytics, charac-terization, and processing. However, opportunities for the graduates of the master´s programme Technical Chemistry comprise a wide range including challenging topics in industry, environ-mental protection, development of innovative materials, drug discovery, or governenviron-mental tasks. Technical chemists also contribute in the areas of waste management, containment of contami-nants, urban water management, plastics and climate engineering to recycling. The continuing development of conductors and semiconductors pushes the limits of energy storage and trans-formation and leads to innovations in computing. Improving construction materials and providing challenging solutions in architecture and construction industry are just a few of the unlimited number of challenges, which can be met by technical chemists.

Technical Chemistry

Fact-Box

n ECTS Credits: 120

n Final degree:

Contact:

[email protected]

► www.tugraz.at

Registration:

► http://register.tugraz.at/tc

Compulsory subjects 25 16 6 2

Catalogue of elective courses/

Restricted elective courses 3 11 18

Optional course/Optional elective courses 2 3 4

Master Thesis 30

Sum 30 30 28 32

COMPULSORY COURSES TYPE ECTS

SEMESTER

1

Advanced Electrochemistry VO 3

Introduction to Solid State Chemistry VO 3

Physical Chemistry for Technical Chemists VO 2

Environmental Chemistry and Technology VO 4

Renewable Resources – Chemistry and Technology VO 2

Materials and Materials Technologies I VO 3

Materials Science I - An Introduction VO 3

Laboratory Course Technical Chemistry I LU 5

SEM.

2

Applied Catalysis VO 3

Energy Storage and Conversion VO 2

Materials and Materials Technologies II VO 3

Materials Science II – Characterisation and Testing VO 3

Laboratory Course Technical Chemistry II LU 5

S. 3 Advanced Chemical EngineeringMaterials and Food Technologies VUVO 42

4 Seminar for Master Thesis SE 2

Programme in Technical Chemistry

ELECTIVE/RESTRICTED ELECTIVE COURSES

Elective Course „Advanced Technical Chemistry“ Courses from the three catalogues of elective courses

■ Renewable Resources

■ Macromolecular Chemistry and Technology ■ Inorganic Materials and Electrochemistry

with a workload of 19 ECTS are to be completed. From one of these three catalogues of elective courses, at least 13 ECTS credit points are to be elected. A maximum of one project laboratory is permitted.

„Advanced Chemistry“

Courses with a scope of 8 ECTS credit points must be selected. The courses can be freely selected from chemical catalogues of several master‘s programmes listed in the curriculum.

These 8 ECTS credit points must comprise not more than one laboratory course. „Soft Skills“

Courses with a scope of at least 5 ECTS credit points must be selected. „Soft skills“ comprise interdisciplinary knowledge and skills.

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As one of the key technologies of the cen-tury, biotechnology utilizes biological systems for the realization of applications in indus-try, agriculture, environment and medicine. The strongly interdisciplinary oriented study programme focuses on the development of competences for the set-up of bio systems by molecular engineering strategies as well as on a profound education to gain expertise for de-velopment and operation of biotechnological processes and applications. Current issues and future oriented subject areas in the fi elds of molecular biotechnology, bioinformatics, environmental biotechnology and food tech-nologies, enzyme technology, biocatalysis and bioprocessing technology are core topics of the biotechnology master programme.

Career Opportunities

Graduates have job opportunities in the fi elds of industrial biotechnology, pharmaceutical and chemical production using bio-based processes, pharmaceutical and biomedical research, food technology, environmental biotechnology, agricultural sector, R&D institutions and public au-thorities. Graduates of the master programme “Biotechnology” possess problem solving skills in R&D, can plan and conduct experiments using state of the art methods and are capable of critically analysing and interpreting experimental data.

Biotechnology

STRUCTURE ECTS

Molecular Biotechnology and Bioinformatics 16

Bioprocess Technology 14

Environmental and Food Biotechnology 13

Laboratory Project Biotechnology 12

Supplement to Master‘s Thesis Biotechnology 2

Elective subject 20

Free-choice subject 12

Master‘s thesis 30

Master‘s degree examination 1

Total 120

Programme in Biotechnology

COMPULSORY COURSES TYPE ECTS

SEMESTER

1

Molecular Biotechnology I VO 3

Bioprocess Technology I VO 3

Bioinformatics VO 3

Biodiversity and Applied Microbiology VO 3

Environmental Biotechnology VO 3

Food Biotechnology VO 2

Laboratory Course Environmental and

Food Biotechnology LU 5 Elective subject 2 Free-choice subject 6 SUM 30 SEMESTER 2 Molecular Biotechnology II VO 3

Laboratory Course Molecular Biotechnology LU 5

Laboratory Course Bioinformatics UE 2

Bioprocess Technology II VO 3

Laboratory Course Bioprocess Technology LU 5

Elective subject 10

SUM 30

COMPULSORY COURSES TYPE ECTS

SEMESTER

3 Enzyme Technology and Biocatalysis VO 3

Laboratory Project Biotechnology LU 12

Elective subject 8

Master’s thesis 3

SUM ₃₀

SEM.

4 Advanced Seminar for Master’s Thesis Biotechnology 2

Master’s thesis 27

Master’s degree examination 1

SUM 30

Total ECTS for courses, compulsory subjects and

elective subjects 77

Total ECTS for free-choice subject 12

Master’s degree examination 1

Total ECTS 120

Fact-Box

n ECTS Credits: 120

n Final degree:

Contact:

[email protected]

► www.tugraz.at

Registration:

► http://register.tugraz.at/ biotechnology

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STRUCTURE ECTS

Compulsory Corses 27,5

Rock Mechanics

& Tunnelling Foundation EngineeringSoil Mechanics & Hydraulic Engineering& Water Resources

30 (selected from 41 - 45 ECTS within one of the

spezialised areas)

Subject-Specific Electives (selected from 20,5

54 ECTS)

Soft Skills 6

Free Electives 6

M.Sc. Thesis 30

COMPULSORY COURSES TYPE ECTS SEM. 1 SEM. 2 SEM. 3 SEM. 4

Engineering Geological Investigation VO 3 3

Soil Mechanics and Foundation Engineering VU 4 4

Rock Mechanics and Tunnelling VO 4 4

Hydraulic Engineering VU 4 4

Hydraulics 1 VO 1,5 1,5

Hydraulics 1 SE 1,5 1,5

Finite Element Method VU 3 3

Geotechnical Monitoring VU 4 4

Petrology VO 1,5 1,5

Petrology UE 1 1

Total compulsory subjects 27,5 19,5 8

Total elective subjects 50,5 6 17 27,5

Total soft skills 6 2 2,5 1,5

Master‘s thesis 30 30

Free-choice subject

Free-choice courses 6

Total 120

The master’s programme in Geotechnical and Hydraulic Engineering provides students with an in-depth education in engineering, focus-sing on the field of civil engineering and its ap-plication and, through the three separate spe-cialisation subjects offered, Soil Mechanics, Rock Mechanics and Hydraulic Engineering, is orientated towards the current international development of engineering subdisciplines. The degree programme reflects the principle of research-led teaching. In addition to provid-ing detailed specialist, theoretical knowledge, special focus is placed on providing practical, social and media competencies. In extended exercises in laboratories and outdoors as well as on excursions, students learn to indepen-dently develop concepts and to put them into practice.

Career Opportunities

The master’s programme in Geotechnical and Hydraulic Engineering aims to provide graduates with theoretical knowledge and practical application skills for an independent career in industry or at a university, in all relevant subject areas.

This programme serves as a pre-vocational education for a successful (international) career in the fields of geotechnics, soil mechanics and foundation engineering, rock mechanics and tunnelling as well as hydraulics, hydraulic engineering and water resources management. The extensive choice of courses also provides students with an individual education and takes into consideration the constantly changing needs of the job market.

Geotechnical and Hydraulic Engineering

Programme in Geotechnical and Hydraulic Engineering

Fact-Box

n ECTS Credits: 120

n Final degree:

Contact:

► [email protected]

► www.tugraz.at

Registration:

► http://register.tugraz.at/ghe

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Never before in the history of mankind has there been such a rapid growth of knowledge or the related change in information as has been the case in information technologies. Students of the master’s programme in Information and Computer Engineering learn how to handle this phenom-enon and to adjust to the necessity of independently and constantly keeping their knowledge up to date. For this reason, the curriculum aims to provide a great deal of freedom in choosing the teaching content, and increases students’ independence and initiative in the way they think, de-cide and act.

Information technologies are the bearers and motors of globalisation and the expansion of the English language as the lingua franca of our world. This makes the use of English a natural ele-ment of the master’s programme in Information and Computer Engineering. Stays abroad are encouraged, international doctoral students are integrated into the fi eld of studies, and professors from the international community enrich the degree programme considerably and contribute to the development of social competence. Projects, lecture activities, written work and teamwork further the development of the corresponding key competencies. Strategic thinking is developed as an integral element of the degree programme.

Career Opportunities

Information, communication and computer networks and systems have rapidly and considerably gained in signifi cance in recent decades and are an integral part of new technologies in practically all aspects of science, business and society. Persons with an education in Information and Com-puter Engineering are consequently active in a wide range of fi elds.

Graduates of the master’s programme in Information and Computer Engineering work in the fi elds of independent modelling, design, implementation, operation and assessment of complex hard-ware and softhard-ware systems in information, computer and communication technology. Graduates have a broad, detailed and critical understanding of the state of science in several specialised areas.

Career opportunities are diverse as a result of the broad fi eld of activity in computer engineering: in industry, services, public administration, and teaching and research, predominantly in manage-ment roles.

Information and Computer Engineering

STRUCTURE ECTS

Major with at least 40 ECTS credit points min. 40

Minor with at least 20 ECTS credit points min. 20

Elective subject (assessed together with the minor) max. 14

Seminar/project (assignable to the major or minor) 10

Total workload without master’s thesis 90

Total for the master’s programme in

Information and Computer Engineering 120

Programme in Information and Computer Engineering

COMPULSORY COURSES TYPE ECTS SEM. 1 SEM. 2 SEM. 3 SEM. 4

Seminar/project SP 10 10

Total for the major, minor and elective subjects 74 30 30 14

Master‘s thesis 30 30

Free-choice subject 6 6

Total 120 30 30 30 30

ELECTIVE COURSE CATALOGUES

Secure and Correct Systems Computer Vision and Graphics Robotics and Computational Intelligence Signal Processing and Human Communication Communications and Mobile Computing Embedded and Automotive Systems Measurement and Control Systems Microelectronics and IC Design

Fact-Box

n ECTS Credits: 120

n Final degree:

Contact:

► [email protected]

► www.tugraz.at

Registration:

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The master´s programme in computer sci-ence is based on a bachelor’s programme in computer science. The aim is to prepare graduate students for a scientifi c career. The focus is on independent thinking and decision making.

The master´s programme facilitates the ac-quisition of specialised knowledge in the following areas:

n Algorithms

n Software technology n Intelligent systems n IT security

n Computer graphics and visualisation n Media

n Multimedia systems

Master‘s programme in

Computer Science

Fact-Box

n ECTS Credits: 120

n Final degree:

Contact: [email protected]

► www.tugraz.at

Registration:

For this master´s programme, an admission process is required. To get more information on the pro-cess including the required docu-ments, deadlines, cost, etc. please follow the link:

► http://register.tugraz.at/ computerscience

Career Opportunities

Knowledge of computer science can be used in almost every aspect of life – from industry and the services sector to public administration, teaching and research. Graduates specifi cally deal with support in modelling, design, implementation, assessment and application of complex software systems. Required abilities range from diverse programming tasks and developing modern multi-media solutions to dealing with new multi-media.

Compulsory courses 8 19 -

-TOT

AL

120 ETCS

Elective courses 19,5 8,5 22

-Diploma student seminar - - 5

-Optional courses 2,5 2,5 3

-Master thesis - - - 30

Sum 30 30 30 30

COMPULSORY COURSES TYPE ECTS

SEMESTER

1 Geometry for Computer Scientists VU 3

Numerical Optimization VO 3 Numerical Optimization UE 2 SEMESTER 2 Compiler Construction VO 3 Compiler Construction KU 2

Discrete Stochastics and Information Theory UE 1

Discrete Stochastics and Information Theory

(Computer Science) VO 4,5

Enumerative Combinatoric Algorithms VU 3,5

IT Security VO 3

IT Security KU 2

ELECTIVE COURSE CATALOGUES

Algorithms Computer Vision Computer Graphics Computational Intelligence IT Security

Multimedia Information Systems Pervasive Computing Robotics

Software Technology Knowledge Technologies Mathematical Foundations

Programme in Computer Science

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Techniques from a wide range of mathematical fields are necessary to cope with the challenges arising in numerous applications: Mathematical imaging improves diagnostic accuracy in life sci-ences and engineering and has become an indispensable tool for complex surgeries. Telecom-munication and modern payment methods propose challenging problems for data encryption. The recent changes in economy require novel approaches to risc management in finance and insurance industry. Analytical and computer aided techniques allow to analyse and simulate math-ematical models of steadily increasing complexity in natural sciences, life science, economical sciences and engineering.

The master programme Mathematics offers the opportunity to specialise in one of the following focus areas:

• Applied Mathematics • Discrete Mathematics

• Financial and Actuarial Mathematics • Statistics and Operations Research • Technomathematics.

Career Opportunities

Due to their training in joined-up thinking and abstraction and their deepened knowledge of mathematical techniques graduates can be employed for a wide range of tasks in industry, economy and science. Possible working areas include:

• Modeling and simulation in industry and economy;

• Development, analysis and implementation of simulation tools ; • Optimisation of processes in industry and economy;

• Collection and analysis of statistical data; • Data technology data security and cryptography; • Design, modeling, assessment and risc evaluation of financial products in banking and insurance industry

Master‘s programme in

Mathematics

STRUCTURE ECTS

Module A: Advanced Analysis 6

Module B: Discrete and Algebraic Structures 6

Module Focus area Applied Mathematics or

55 Module Focus area Discrete Mathematics or

Module Focus area Financial and Actuarial Mathematics or

Module Focus area Statistics and Operations Research or

Module Focus area Technomathematics

Elective subject Mathematics 12

Module Seminar 4

Master‘s thesis 30

Master‘s degree examination 1

Total 120

One of the five focus areas listed above must be chosen as a whole.

Programme in Mathematics

DESCRIPTION

Module A: Advanced Analysis

Differential calculus in normed spaces, fixed-point theorems, Fourier analysis, analysis on manifolds

Module B: Discrete and Algebraic Structures Standard methods of enumerative combinatorics, graph theory, rings and modules, multilinear algebra

Module Focus area Applied Mathematics

Partial differential equations: advanced techniques for sta-tionary and non-stasta-tionary problems, numerical methods; advanced programming techniques; theory and numerics of constrained non-linear optimisation problems; deter-ministic and stochastic mathematical models and their analysis; theory and numerics of inverse problems

Module Focus area Discrete Mathematics Further education in stochastics; introduction to infor-mation theory; introduction to the probabilistic method in combinatorics and algorithmics; courses to deepen knowledge of commutative algebra; algebraic curves and number theory with applications in cryptography; discrete geometry and specialisation in graph theory with algorith-mic aspects. A specialisation in non-commutative algebra, combinatorial optimisation or complexity theory can also be chosen.

Module Focus area Financial and Actuarial Mathematics

Further education in statistics and operations research. Description of central concepts and methods in the areas of mathematical and applied statistics and statistical modelling.

Broadened knowledge in the area of non-linear optimisati-on with coptimisati-onstraints.

Deepened knowledge of combinatorial optimisation with the focus on NP-hard problems.

Broadened knowledge of operations research methods (metaheuristics, multicriteria optimisation).

Module Focus area Statistics and Operations Re-search

Further education in statistics and operations research. Description of central concepts and methods in the areas of mathematical and applied statistics and statistical modelling.

Broadened knowledge in the area of non-linear optimisati-on with coptimisati-onstraints.

Deepened knowledge of combinatorial optimisation with the focus on NP-hard problems.

Broadened knowledge of operations research methods (metaheuristics, multicriteria optimisation).

Module Focus area Technomathematics

Analysis and numerics of partial differential equations; functional analysis and calculus of variations; modelling and simulation of physical and technical problems in natural sciences and engineering.

Fact-Box

n ECTS Credits: 120

n Final degree:

Contact: [email protected]

► www.tugraz.at

Registration:

► http://register.tugraz.at/ mathematics

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The University

Science, Passion, Technology – Graz University of Technology (TU Graz) scores with performance in education and research. Five „Fields of Expertise“ leave behind them the unmistakable mark of the university. Approximately 12.300 students currently benefit of the university‘s courses in science and engineering, spread in seven faculties and over 100 institutes. Each year, some 2.000 alumni find excellent career perspectives. The strong network of TU Graz with business, industry and other research institutions leads to successful cooperations. Cur-rent emphasis of TU Graz: pushing the internationalization.

Welcome Center

The WELCOME CENTER of Graz University of Technology is the central advisory and service department for international students (but not exchange students) prior to, during and after their stay. The service includes expert advice and support with particular regard to matters such as looking for accommodation, law relat-ing to aliens, authorities, networkrelat-ing and integration, as well as general questions about living in Austria. The Welcome Center acts as an interface between university facilities (e.g. Registration Office, Office of International Relations and Mobility Programmes, Students’ Union of Graz University of Technology) and external offices (e.g. embassies, ministries and Styrian local government).

Welcome Center

Mandellstraße 15/II [email protected]

Phone: +43 316 873 6427 or +43 316 873 4920

Realized in Graz: Instead of offering separate study pro-grammes, University of Graz and Graz University of Technology have decided in 2004 to jointly conduct study programmes in Bioscience, Chemistry, Earth, Space and Environmental Sci-ence, Mathematics and Physics. The joint study programmes create an added value for all students:

■ enhanced choices for specialization

■ higher quality study programmes by using the best resources of both universities

■ more laboratory workplaces

■ increased permeability of the study programme structure (e.g. one can pursue a bioscience master´s programme af-ter completing a NAWI Graz bachelor in chemistry and vice versa).

As a result of NAWI Graz teaching, the spectrum of studying possibilities have been increased. As of winter term, 18 NAWI Graz bachelor and master´s programmes with a total of 4.600 students are offered.

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atest update: January 2016

Campus Location

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