Classes in English

A |B |C | D | E | F | G | H | I |J |L |  M | N | O | P | Q | R | S | V | W

Broken links can be reported to : therese.preische@tu-dresden.de.

Course name [module name]

• 3D System Integration and 3D Technologies [NES: Materials for the 3D System Integration, summer]

A

• Analysis and Description of Nonliniear Systems [ET-12 08 07, Introduction to the Theory of Nonlinear Systems/ Einführung in die Theorie nichtlinearer Systeme, summer]

B

• Biomedical Laser Systems and Optogenetics [ET-12 08 21, Photonische Messsystemtechnik/ NES-ET-E-ComLS-23, winter]

C

• Cellular Nonlinear Networks [ET-12 08 07, Einführung in die Theorie nichtlinearer Systeme, winter]
• Circuit Technology [winter]
• ComNets - Problem Based Learning [NES: Communication Networks 3, winter]
• Communication Networks 2 [ET-12 10 05, Communication Networks, Advanced I / Kommunikationsnetze Aufbaumodul, summer]
• Communication Networks 3 [NES: Communication Networks 3, winter]
• Communications [NES: Communications, summer]

• Cooperative Communication Systems [ET-12 10 22, Intelligent and cooperative Communications / Intelligente und kooperative Kommunikation, summer]

D

• Deep Neural Network Hardware [NES-E-DNNH-23, summer]
• Design and Programming of Embedded Multicore Architectures [NES: Design and Programming of Embedded Multicore Architectures, summer]
• Digital Holography and Image Processing [NES-ET-E-ComLS, winter]
• Distributed Systems [NES: Ubiquitous Systems, winter]

E

• Electromechanical Networks [NES: Electromechanical Networks, winter]
• Embedded Hardware Systems Design [NES: Embedded Hardware Systems Design, summer]

F

• Foundations of Certified Programming Language and Compiler Design [NES-INF-E-FCPL, winter]
• Fundamentals of Estimation and Detection [NES: Fundamentals of Estimation and Detection, winter]
• Future Computing Strategies in Nanoelectronic Systems [NES: Future Computing Strategies in Nanoelectronic Systems, winter]

G

• German Language and Culture

H

• Hardware Modeling and Simulation [NES: Hardware Modeling and Simulation, winter]
• Hardware/Software Codesign for Signal Processors [NES: Hadware/Software Codesign, summer]
• Hardware/Software Codesign Lab [ET-12 10 16, NES: Lab Sessions, winter]

I

• Innovative Semiconductor Devices [NES-ET-22-E-ICAND: Innovative Concepts for Active Nanoelectronic Devices; ET-12 12 07: Innovative Concepts for Active Nanoelectronic Devices, winter]
• Integrated Circuits for Broadband Optical Communications [ET-12 08 17, NES: Integrated Circuits for Broadband Optical Communications, winter]
• Integrated Photonic Devices [NES: Integrated Photonic Devices for Communications and Signal Processing, winter]
• Introduction to Optical Non-classical Computing: Concepts and Devices [NES: Introduction to Optical Non-classical Computing: Concepts and Devices, summer]

J

• Joint Communications and Sensing Systems for 6G Networks [NES-E-JCAS, winter]

L

• Lab Embedded Hardware Systems Design [NES, INF-DSE-20-E-EHS-L, Lab Embedded Hardware Systems Design, winter]

M

•  Machine Learning in Signal Processing [ET-12 10 17: Vertiefung Mobile Nachrichtensysteme, winter]
• Materials for Nanoelectronics [NES-ET-22-E-ICAND: Innovative Concepts for Active Nanoelectronic Devices; ET-12 12 07: Innovative Concepts for Active Nanoelectronic Devices, winter]
• Memory Technology 1 [NES: Memory Technology, summer]
• Memory Technology 2 [NES: Memory Technology, winter]
• Micro-/Nanomaterials and Reliability Aspects [NES: Materials for the 3D System Integration, winter]
• Mobile Communication and Mobile Computing [NES: Ubiquitous Systems, winter]
• Molecular Electronics [NES: Molecular Electronics, winter]

N

• Nanooptics [NES: Optoelectronics, winter]
• Nanostructured Materials [NES: Nanotechnology and Material Science, summer]
• Nanotechnology [NES: Nanotechnology and Material Science, summer]
• Neural Networks and Memristive Hardware Accelerators [NES: Neural Networks and Memristive Hardware Accelerators, winter]
• Neuromorphic VLSI Systems [NES: Neuromorphic VLSI Systems, summer]

O

• Oberseminar Schaltungstechnik/ Seminar for graduate students on Circuit Design [ET-12 10 23, winter]
• Optoelectronics Devices and Systems [NES: Optoelectronics, winter]
• Organic Field Effect Devices [winter]

P

• Paper Reading Group "Seminal Discoveries & Developments" [NES: Academic and Scientific Work, winter]
• Physical Design [NES-E-PD-23: Physical Design, summer]
• Plasma Technology [ET-12 11 05, NES‐ET‐E-PlaTe, winter]

• Practical Implementations of Network Coding [ET-12 10 21: Network Coding in Theory and Practice/ Netzwerkcodierung in Theorie und Praxis, summer]

• Principles of Dependable Systems [NES: Principles of Dependable Systems, winter]
• Python for Engineers [NES: Neural Networks and Memristive Hardware, winter]

Q

• Quantum and Solid State Physics [NES:Quantum Mechanics for Nanoelectronics, winter]

R

• Radio Frequency Integrated Circuits [NES: Radio Frequency Integrated Circuits, summer]
• Requirements and methodologies for design of integrated circuits from industrial production perspective [NES-E-LSer-23, summer]
• Resource Management [NES-E-ResM-23: Resource Management, summer]
• RoboLab [NES: Lab Sessions, winter]

S

• Semiconductor Technology 1 [NES: Semiconductor Technology, winter]
• Semiconductor Technology 2 [NES: Semiconductor Technology, summer]
• Semiconductor Technology Lab [NES: Lab Sessions, summer]
• Semiconductor Quantum Structures [NES, Quantum Mechanics for Nanoelectronics, winter]
• Software Fault-Tolerance [NES: Foundations of Software Fault-Tolerance, summer]
• Stochastic Signals and Systems [NES: Stochastic Signals and Systems, winter]
• Systems Engineering 1 [NES: Foundations of Systems Engineering, winter]

V

• VLSI Processor Design [NES: VLSI Processor Design, summer]

W

• Wireless Sensor Networks [NES: Wireless Sensor Networks, summer]