066 646 Masterstudium Computational Science and Engineering

Strukturansicht
Semesteransicht

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Zeige alle LVAs des Studienjahres an, in dem das ausgewählte Semester liegt.

2023W-2024S (2019U)

Verordnungstext

Titel	Anm.Bed.	Stunden	ECTS
Masterstudium Computational Science and Engineering			120.0
Computer Science			17.0
Parallel Computing			12.0
VU High Performance Computing		3.0	4.5
184.725 VU 2024S High Performance Computing Hochleistungsrechnen		3.0	4.5
184.725 VU 2023W High Performance Computing Hochleistungsrechnen		3.0	4.5
VU Advanced Multiprocessor Programming		3.0	4.5
VU Computational Science on Many-Core Architectures		2.0	3.0
360.252 VU 2023W Computational Science on Many-Core Architectures		2.0	3.0
Programming			5.0
VU Advanced Programming with C++		2.0	3.0
360.251 VU 2023W Advanced Programming with C++		2.0	3.0
VU Scientific Programming with Python		2.0	2.0
191.125 VU 2023W Scientific Programming with Python		2.0	2.0
Scientific Computing			15.0
Scientific Computing			15.0
VO Introduction to Computational Science and Engineering		2.0	3.0
360.239 VO 2023W Introduction to Computational Science and Engineering		2.0	3.0
VU Numerical Simulation and Scientific Computing I		3.0	6.0
360.242 VU 2023W Numerical Simulation and Scientific Computing I		3.0	6.0
VU Numerical Simulation and Scientific Computing II		3.0	6.0
360.243 VU 2024S Numerical Simulation and Scientific Computing II		3.0	6.0
Applied Mathematics			18.0
Applied Mathematics Foundations			4.0
VU Applied Mathematics Foundations		4.0	5.5
101.880 VU 2023W Applied Mathematics Foundations		4.0	5.5
Numerical Computation			7.0
VU Numerical Computation		4.0	5.5
101.973 VU 2023W Numerical Computation		4.0	5.5
Numerical Partial Differential Equations			7.0
VO Numerical Methods for PDEs		3.0	4.0
101.773 VO 2024S AKNUM Numerical methods for PDEs		3.0	4.0
UE Numerical Methods for PDEs		2.0	3.0
101.775 UE 2024S AKNUM Numerical methods for PDEs		2.0	3.0
SB Computational Building Science			15.0
Computational Building Science (Verpflichtend)	Zusätzlich zu den 11.5 ECTS an verpflichtenden LVA´en dieses Moduls müssen noch mindestens 3.5 ECTS aus dem optionalen Lehrveranstaltungskatalog dieses Moduls absolviert werden.		11.5
VU Advanced Numerical Methods in Building Science 1		2.0	3.0
207.014 VU 2024S Advanced Numerical Methods in Building Science 1		2.0	3.0
VU Foundations of Building Science		2.0	3.0
207.012 VU 2023W Foundations of Building Science		2.0	3.0
VU Introduction to Digital Twins for Buildings and Cities		1.0	2.0
207.013 VU 2023W Introduction to Digital Twins for Buildings and Cities		1.0	2.0
SE Research Methods and Scientific Writing in Building and City Science		1.0	3.5
207.029 SE 2023W Research Methods and Scientific Writing in Building and City Science		1.0	3.5
Computational Building Science (Optional)			12.5
VU Advanced Numerical Methods in Building Science 2		3.0	3.5
207.017 VU 2023W Advanced Numerical Methods in Building Science 2		3.0	3.5
VU Data Management		1.0	1.0
207.019 VU 2023W Data Management		1.0	1.0
VO Engineering Biochemoporomechanics		2.0	3.0
202.019 VO 2023W Engineering biochemoporomechanics		2.0	3.0
VO Multiscale Material Modelling		2.0	3.0
202.649 VO 2024S Multiscale Material Modelling		2.0	3.0
UE Multiscale Material Modelling		2.0	2.0
202.650 UE 2024S Multiscale Material Modelling		2.0	2.0
SB Computational Chemistry and Materials Science			15.0
Computational Chemistry and Materials Science (Verpflichtend)	Zusätzlich zu den 7.5 ECTS an verpflichtenden LVA´en dieses Moduls müssen noch mind. 7.5 ECTS aus dem optionalen Lehrveranstaltungskatalog diese Moduls absolviert werden.		7.5
VU Concepts in Condensed Matter Physics		2.0	3.0
138.121 VU 2023W Concepts in Condensed Matter Physics		2.0	3.0
VU Introduction to Theoretical Chemistry		3.0	4.5
165.166 VU 2023W Introduction to Theoretical Chemistry		3.0	4.5
Computational Chemistry and Materials Science (Optional)			19.5
VU Computational Materials Science		4.0	6.0
138.058 VU 2023W Computational Materials Science		4.0	6.0
VU Physical and Theoretical Solid State Chemistry		3.5	4.5
165.089 VU 2024S Physikalische und theoretische Festkörperchemie		3.5	4.5
PN Selected Topics in Materials Science		3.0	3.0
138.123 PN 2024S Selected Topics in Materials Science		3.0	3.0
PR Selected Topics in Theoretical Chemistry		3.0	3.0
165.164 PR 2024S Selected Topics in Theoretical Chemistry		3.0	3.0
165.164 PR 2023W Selected Topics in Theoretical Chemistry		3.0	3.0
VU Simulations of Condensed Matter		2.0	3.0
165.144 VU 2023W Simulation von kondensierter Materie		2.0	3.0
SB Computational Electronics			15.0
Computational Electronics (Verpflichtend)	Zusätzlich zu den 7.0 ECTS an verpflichtenden LVA´en dieses Moduls müssen noch mind. 8.0 ECTS aus dem optionalen Lehrveranstaltungskatalog diese Moduls absolviert werden.		7.0
VU Introduction to Semiconductor Physics and Devices		3.0	4.0
360.241 VU 2023W Introduction to Semiconductor Physics and Devices		3.0	4.0
VU Introduction to Finite Element Methods in Solid Mechanics		2.5	3.0
317.039 VU 2024S Introduction to Finite Element Methods in Solid Mechanics		2.0	3.0
Computational Electronics (Optional)			25.0
VU Simulierung der Fertigung von Halbleiterbauelementen		3.0	4.0
360.246 VU 2024S Simulierung der Fertigung von Halbleiterbauelementen		3.0	4.0
PR Selected Topics - Computational Electronics		4.0	4.0
360.245 PR 2024S Selected Topics - Computational Electronics		4.0	4.0
360.245 PR 2023W Selected Topics - Computational Electronics		4.0	4.0
VU Semiconductor Sensors		3.0	4.0
360.248 VU 2023W Semiconductor Sensors		3.0	4.0
SE Recent Advances in Computational Electronics		1.0	1.0
360.244 SE 2024S Recent Advances in Computational Electronics		1.0	1.0
360.244 SE 2023W Recent Advances in Computational Electronics		1.0	1.0
VU Finite Element Methods for Multi-Physics I		3.0	4.0
325.095 VU 2023W Finite Elemente Methoden für gekoppelte Feldprobleme I		3.0	4.0
VO Theory, Modelling and Simulation of MEMS and NEMS Devices		2.0	3.0
366.103 VO 2023W Theorie, Modellierung und Simulation mikro- und nanoelektromechanischer Systeme (MEMS/NEMS)		2.0	3.0
PR Selected Topics - MEMS and NEMS		5.0	5.0
366.107 PR 2024S Selected Topics - MEMS and NEMS		5.0	5.0
366.107 PR 2023W Selected Topics - MEMS and NEMS		5.0	5.0
SB Computational Fluid Dynamics and Acoustics			15.0
Computational Fluid Dynamics and Acoustics (Verpflichtend)	Zusätzlich zu den 5.0 ECTS an verpflichtenden LVA´en dieses Moduls müssen noch mind. 10.0 ECTS aus dem optionalen Lehrveranstaltungskatalog diese Moduls absolviert werden.		5.0
VU Fundamentals in Fluid Mechanics		3.0	5.0
322.048 VU 2024S Grundlagen der Strömungsmechanik		3.0	5.0
Computational Fluid Dynamics and Acoustics (Optional)			20.0
UE Calculating Turbulent Flows with CFD-Codes		2.0	3.0
322.057 UE 2023W Berechnung turbulenter Strömungen mit Computerprogrammen		2.0	3.0
VU Computational Aerodynamics		3.0	5.0
322.079 VU 2024S Computational Aerodynamics		3.0	5.0
PR Project Study in Fluid Mechanics		4.0	4.0
322.021 PR 2024S Strömungsmechanik Projektarbeit		4.0	4.0
322.021 PR 2023W Strömungsmechanik Projektarbeit		4.0	4.0
SB Computational Informatics	Das Modul besteht aus 2 Untergruppen. Aus jeder Untergruppe sind LVA´en im Ausmaß von mind. 5.0 ECTS, insgesamt mind. 15.0 ECTS zu absolvieren.		15.0
Untergruppe Data Management and Analytics			45.0
VU Advanced Database Systems		4.0	6.0
184.780 VU 2024S Datenbanksysteme Vertiefung		4.0	6.0
VU Advanced Methods for Regression and Classification		3.0	4.5
105.707 VU 2023W Advanced Methods for Regression and Classification		3.0	4.5
VU Database Systems Lehrveranstaltungen gehören zur Studieneingangs- und Orientierungsphase STEOP		4.0	6.0
184.686 VU 2024S Datenbanksysteme		4.0	6.0
VU Data-Intensive Computing		2.0	3.0
194.048 VU 2024S Data-intensive Computing		2.0	3.0
VU Data-Oriented Programming Paradigms		2.0	3.0
188.995 VU 2023W Datenorientierte Programmierparadigmen		2.0	3.0
VO Data Stewardship		2.0	3.0
194.044 VO 2024S Data Stewardship		2.0	3.0
UE Data Stewardship		2.0	3.0
194.045 UE 2024S Data Stewardship		2.0	3.0
VU Experiment Design for Data Science		2.0	3.0
188.992 VU 2023W Experiment Design for Data Science		2.0	3.0
VU Machine Learning		3.0	4.5
184.702 VU 2024S Machine Learning		3.0	4.5
184.702 VU 2023W Machine Learning		3.0	4.5
VU Statistical Simulation and Computerintensive Methods		2.0	3.0
107.330 VU 2023W Statistische Simulation und computerintensive Methoden		2.0	3.0
Untergruppe Algorithmics			36.0
VU Algorithmics		4.0	6.0
186.814 VU 2023W Algorithmics		4.0	6.0
VU Approximation Algorithms		2.0	3.0
186.102 VU 2023W Approximation Algorithms		2.0	3.0
VU Complexity Analysis		2.0	3.0
184.215 VU 2024S Complexity Analysis		2.0	3.0
VU Efficient Programs		2.0	3.0
185.190 VU 2023W Effiziente Programme		2.0	3.0
VU GPU Architectures and Computing		4.0	6.0
182.731 VU 2024S GPU Architectures and Computing		4.0	6.0
VU Heuristic Optimization Techniques		3.0	4.5
192.137 VU 2023W Heuristic Optimization Techniques		3.0	4.5
VU Mathematical Programming		2.0	3.0
186.835 VU 2024S Mathematical Programming		2.0	3.0
VU Nonlinear Optimization		2.0	3.0
VU Parallel Algorithms		2.0	3.0
VU Structural Decompositions and Algorithms		2.0	3.0
186.856 VU 2024S Structural Decompositions and Algorithms		2.0	3.0
SB Computational Mathematics			15.0
Computational Mathematics	Dieses Modul enthält keine verpflichtenden LVA´en. Demnach müssen 15.0 ECTS aus dem Lehrveranstaltungskatalog absolviert werden. Weiters können alle LVA´en mit dem Präfix AKNUM, die im Masterstudium Technische Mathematik angeboten werden ebenfalls für dieses Modul verwendet werden.		36.5
VO AKNUM Computational Finance		3.0	4.5
UE AKNUM Computational Finance		2.0	3.0
SE Computational Mathematics		2.0	3.0
101.952 SE 2024S Computational Mathematics		2.0	3.0
VU AKNUM Finite Element Methods in Technical Applications		3.0	4.5
VO AKNUM Iterative Solution of Large Systems of Equations			4.5
101.770 VO 2024S AKNUM Iterative Lösung großer Gleichungssysteme		3.0	4.5
UE AKNUM Iterative Solution of Large Systems of Equations		1.0	1.5
101.771 UE 2024S AKNUM Iterative Lösung großer Gleichungssysteme		1.0	1.5
VO Modelling with Partial Differential Equations		3.0	4.5
101.500 VO 2023W Modellierung mit part. Differentialgleichungen		3.0	4.5
UE Modelling with Partial Differential Equations		1.0	1.5
101.502 UE 2023W Modellierung mit part. Differentialgleichungen		1.0	1.5
VO Numerics of Partial Differential Equations: Instationary Problems		3.0	4.5
101.509 VO 2024S Numerik partieller Differentialgleichungen: instationäre Probleme		3.0	4.5
UE Numerics of Partial Differential Equations: Instationary Problems		1.0	1.5
101.532 UE 2024S Numerik partieller Differentialgleichungen: instationäre Probleme		1.0	1.5
VU Optimization with PDE Constraints		2.0	3.5
SB Computational Mechatronics			15.0
Computational Mechatronics (Verpflichtend)	Zusätzlich zu den 7.0 ECTS an verpflichtenden LVA´en dieses Moduls müssen noch mindestens 8.0 ECTS aus dem optionalen Lehrveranstaltungskatalog dieses Moduls absolviert werden.		7.0
VU Finite Element Methods for Multi-Physics I		3.0	4.0
325.095 VU 2023W Finite Elemente Methoden für gekoppelte Feldprobleme I		3.0	4.0
VO Finite Element Methods for Multi-Physics II		2.0	3.0
325.099 VO 2024S Finite Elemente für gekoppelte Feldprobleme II		2.0	3.0
Computational Mechatronics (Optional)			16.0
VU Computational Methods in Structural Mechanics		3.0	4.0
UE Finite Element Methods for Multi-Physics II		2.0	2.0
325.101 UE 2024S Finite Element Methods for Multi-Physics II		2.0	2.0
VU Implementation of a Finite Element Program		3.0	4.0
325.097 VU 2023W Implementation of a Finite Element Program		3.0	4.0
VU Nanoelectromechanical Systems		2.0	3.0
366.102 VU 2024S Nanoelectromechanical Systems		2.0	3.0
SE Seminar Mechatronic Systems		2.0	3.0
325.090 SE 2024S Seminar Mechatronische Systeme		3.0	3.0
325.090 SE 2023W Seminar Mechatronische Systeme		3.0	3.0
VO Theory, Modelling and Simulation of MEMS and NEMS Devices		2.0	3.0
366.103 VO 2023W Theorie, Modellierung und Simulation mikro- und nanoelektromechanischer Systeme (MEMS/NEMS)		2.0	3.0
SB Computational Solid Mechanics			15.0
Computational Solid Mechanics (Verpflichtend)	Zusätzlich zu den 7.0 ECTS an verpflichtenden LVA´en dieses Moduls müssen noch mindestens 8.0 ECTS aus dem optionalen Lehrveranstaltungskatalog dieses Moduls absolviert werden.		7.0
VU Introduction to Finite Element Methods in Solid Mechanics		2.5	3.0
317.039 VU 2024S Introduction to Finite Element Methods in Solid Mechanics		2.0	3.0
VU Implementation of a Finite Element Program		3.0	4.0
325.097 VU 2023W Implementation of a Finite Element Program		3.0	4.0
Computational Solid Mechanics (Optional)			27.0
VO Advanced Material Models for Structural Analysis		2.0	3.0
317.536 VO 2024S Advanced Material Models for Structural Analysis		2.0	3.0
VU Composites Engineering		2.0	3.0
317.554 VU 2023W Composites Engineering		2.0	3.0
UE Design of Composite Structures Using Finite Element Methods		2.0	2.0
317.553 UE 2024S Design of Composite Structures using Finite Element Methods		2.0	2.0
VU Finite Element Methods for Multi-Physics I		3.0	4.0
325.095 VU 2023W Finite Elemente Methoden für gekoppelte Feldprobleme I		3.0	4.0
VO Finite Element Methods for Multi-Physics II		2.0	3.0
325.099 VO 2024S Finite Elemente für gekoppelte Feldprobleme II		2.0	3.0
UE Finite Element Methods for Multi-Physics II		2.0	2.0
325.101 UE 2024S Finite Element Methods for Multi-Physics II		2.0	2.0
VU Isogeometric Analysis		4.0	5.0
317.540 VU 2024S Isogeometrische Analyse		4.0	5.0
VO Nonlinear Finite Element Methods		2.0	3.0
317.535 VO 2023W Nonlinear Finite Element Methods		2.0	3.0
UE Nonlinear Finite Element Methods		2.0	2.0
317.537 UE 2023W Nonlinear Finite Element Methods		2.0	2.0
Freie Wahlfächer und Transferable Skills			10.0
Diplomarbeit			30.0
SE Computational Science and Engineering Seminar		1.0	1.5
360.048 SE 2024S Computational Science and Engineering Seminar		1.0	1.5
360.048 SE 2023W Computational Science and Engineering Seminar		1.0	1.5
Abschlussarbeit Diplomarbeit			27.0
Abschlussprüfung Kommissionelle Abschlussprüfung			1.5

Verantwortliche_r Studiendekan_in

Bei Fragen zum Curriculum wenden Sie sich bitte an eine_n der verantwortlichen Studiendekan_innen.

Schöberl, Joachim; Univ.Prof. Dipl.-Ing. Dr.techn.

Legende

: Lehrveranstaltungen gehören zur Studieneingangs- und Orientierungsphase STEOP
: Lehrveranstaltungen gehören zum Studieneingangsgespräch STEG
: Lehrveranstaltungen erfordern die Erfüllung der Studieneingangs- und Orientierungsphase STEOP
: Lehrveranstaltungen erfordern die Erfüllung des Studieneingangsgesprächs STEG