welcome and information meeting master‘s program
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Welcome Meeting Master‘s Program Nanoelectronic SystemsThomas Mikolajick | Manuela Tetzlaff Dresden, 07.10.2021
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Welcome by dean of studies
Prof. Dr.-Ing. Thomas Mikolajick
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Proof of vaccination, recovery or a negative test (3G Rule) is required to access all buildings on the TUD campus !
Welcome Meeting Master‘s Program Nanoelectronic SystemsThomas Mikolajick | Manuela Tetzlaff Dresden, 07.10.2021
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https://tu-dresden.de/studium/im-studium/coronavirus
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Initiated by Cool Silicon cluster
Cool Silicon: Leading-Edge Cluster with the goal of energy efficiency in the information and communications technology (ICT) sector
Welcome Meeting Master‘s Program Nanoelectronic SystemsThomas Mikolajick | Manuela Tetzlaff Dresden, 07.10.2021
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https://tu-dresden.de/studium/im-studium/coronavirus
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Silicon Saxony• 2.400 companies with about 64.000 employees• among them more than 350 companies with about 20.000 employees
active in microelectronics• 4 billion Euros revenue• Training/Research:
• 4 Universities, • 5 Universities of Applied Sciences, • 9 Fraunhofer-, 3 Leibniz-,2 Max-Planck-Institutes,
and 1 Helmholtz-Center
Nanoelectronics in Saxony
Applications• TechniSat• National Instruments (former
Signalion)• …
Design• Renesas• DMOS GmbH• Productivity Engineering GmbH • …
Technology• GLOBALFOUNDRIES• Infineon• X-FAB• Bosch• …
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Nanoelectronics in research
New perspectives for modern electronics
Overcoming the CMOS bottlenecks withcomplementary technologies
„Advancing Electronics“
Expertise:Physics Chemistry Biology Mathematics
ElectricalEngineering
Computer Science
Engineering and natural sciences
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Nanoelectronics at TU Dresden
• Micro-, Opto- and Nanoelectronics is one research focus of TU Dresden
• Faculty of Electrical and Computer Engineering • one of the oldest faculties for electrical engineering in Europe• one of the largest faculties for electrical engineering in Germany• Prof. Barkhausen was the founder of the first Low Power Technology Institute
• Institute of Semiconductors and Microsystems (IHM)• 411 m2 Clean Room Laboratory (built 2006, extended 2013)• NaMLab gGmbH (2009)
• Chair of Nanoelectronics
• Institute for Applied Physics (Photo Physics, Semiconductor Physics)
• Institute for Material Science
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Faculty Facts• 29 full professors• 1 junior professors• 420 PhD Students• 460 scientific employees• 1.700 Students• approx. 39 million Euro third party funding every year
Faculty of Electrical and Computer Engineering
Welcome Meeting Master‘s Program Nanoelectronic SystemsThomas Mikolajick | Manuela Tetzlaff Dresden, 07.10.2021
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Faculty of Electrical and Computer Engineering
Scientific and research oriented education
StructuredPhD ProgrammeDr.-Ing.3 years
research orientedMaster‘s ProgrammeM.Sc. NES4 semesters
Diploma ProgrammesDipl.-Ing. ET, MT, IST, RES10 semesters
guidedstudy entry
High School Abitur
Bachelor
Diploma, Master
Welcome Meeting Master‘s Program Nanoelectronic SystemsThomas Mikolajick | Manuela Tetzlaff Dresden, 07.10.2021
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3rd semester
1st and 2nd semester
1st semester
Study flow chart of the NES programme
• Principles of Dependable Systems
• Fundamentals of Estimation and Detection
• Lab Sessions
• Semiconductor Technology
• Radio Frequency Integrated Circuits
• Hardware/Software Codesign
• Academic and Scientific Work
Master Thesis (30 credits; 4th semester)
Master of Science (M.Sc)
Elective Modules (39 credits)
Compulsory Modules (41 credits)
Project Work (10 credits)
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• Innovative Semiconductor Devices• Materials for Nanoelectronics and Vacuum Technology• Nanotechnology and Material Science• Materials for the 3D System Integration• Memory Technology • Molecular Electronics• Optoelectronics• Quantum Mechanics for Nanoelectronics
• Distributed Systems Engineering• Stochastic Signals and Systems• Communications • Software Fault-Tolerance• Wireless Sensor Networks • Antennas and Radar Systems• Communication Networks 3• Ubiquitous Information Systems • Future Computing Strategies in Nanoelectronic Systems
The programme NES focuses on three key areas:
• Technology
• Design
• Application• Integrated Photonic Devices for Communications and Signal Processing• Neuromorphic VLSI Systems• VLSI Processor Design• Modeling and characterization of nanoelectronic devices• Design and Programming of Embedded Multicore Architectures• Introduction to Optical Non-classical Computing: Concepts and Devices• Electromechanical Networks • Hardware/Software Codesign Lab • Integrated Circuits for Broadband Optical Communications • Hardware Modeling and Simulation
Which key area are you most interested in?
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TECHNOLOGYTypical process flow in
semiconductor technology
3D NAND cross section
Inside the cleanroom of TUD
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DESIGN
Procedure Chip Design
Data LNA Antenna
Down Mixer
ωRF ωLO
ωIF
Image Reject Filter
VCO
Channel Select Filter
DSP
RF Band Filter ADC
Data PA
Up Mixer
ωIF LP
Filter
LP
Filter
DSP
DAC
SPDT Switch
Example Transceiver Architectures for Wireless Communications
Example Chips for 6G communications, 200 GHz, 50 Gb/s wirelessTransmitter Receiver
Bond-wire antennas
Fritsche, Stärke, Carta, Ellinger, A Low-Power SiGe BiCMOS 190 GHz Transceiver Chipset with Demonstrated DataRates up to 50 Gbit/s using On-Chip Antennas, IEEE Trans. on Microwave Theory and Tech., March 2017, © IEEE
Example TheoryVout/Vin =gm RL > 1
TU Dresden Chair for Circuit Design and Network Theory
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APPLICATION
Mixed-Reality application in agricultureAutomated Industry 4.0 scenario
Demo of automated robot arms and an AGV (automated guided vehicle). The AGV can be controlled remotely from anywhere in the world and connects two production lines, for example.
The MR demo (Mixed Reality) shows a model of an autonomous fruit harvesting robot in a vineyard. Using an app, the model (later the "real" vehicle) can be scanned and then, by clicking on the video image in the app, provides information about individual components and, for example, maintenance instructions, which are then showed on the "real" video.
TU Dresden Vodafone Chair Mobile Communications Systems
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Main campus Südvorstadt
© Jörg Schöner
© Till Schuster
Orientation on the campus of the TU Dresden
Barkhausen building
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https://navigator.tu-dresden.de/
You are here.
BuildingsAPB Andreas Pfitzmann-Bau BAR Barkhausen-BauGÖR Görges-BauHSZ HörsaalzentrumMIE Mierdel-Bau
APB
MIENaMLab
GÖRHSZ
(Lecture Hall)
Cafeteria „Alte Mensa“
Cafeteria „Zeltmensa“
Library (SLUB)Main Building
Library (SLUB)DrePunct
Sport Center
• Examination office• Academic advisor
(BAR161)• Student body (FSRET)
BAR
The Campus Navigator is available for your Android or iOS smartphone. Search for "Campus Navigator -TU Dresden" in the official app stores.
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Important dates of the academic year
Winter Semester 2021/2022
01.10.2021 - 31.03.2022
• Courses and lectures: 11.10.2021 - 22.12.2021 05.01.2022 - 05.02.2022
• Lecture-free periods and bank holidays:
31.10.2021 Reformation Day17.11.2021 Day of Prayer and Repentance23.12.2021 - 04.01.2022 Turn of the year07.02.2022 - 31.03.2022 Lecture-free period
• Main examination period: 07.02.2022 – 05.03.2022
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List of all lectures with OPAL-Links !
Curriculum plans, module descriptions
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P: RoboLabFetzer
NES 11 06 01 Lab SessionsHÜL/S186/H
(tba)
L: SCT 1Bartha
NES-12 12 02 Semiconductor Technology
SCH/A118/H(online)
L: PODS Fetzer
NES-11 06 02 Principles of Dependable Systems
APB/E008/U (tba)
E: PODS Fetzer
NES-11 06 02 Principles of Dependable Systems
APB/E008/U (tba)
L: SCT 1Bartha
NES-12 12 02 Semiconductor Technology
SCH/A118/H(online)
L: FEDRave
NES-12 10 01 Fundamentals of Estimation and
Detection BAR/0I88/U
(tba)
E: FED(tba)
NES-12 10 01 Fundamentals of Estimation and
Detection HSZ/0301/U
(tba)
11:10 -
12:40
07:30 -
09:00
14:50 -
16:20
13:00 -
14:30
09:20 -
10:50
16:40 -
18:10
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Curriculum – elective modules
• Catalogue of 29 elective modules with 175 credit points (is updated every semester!)
• You have to select elective modules with at least 39 credit points
• You can choose modules of the catalogue by your own choice. The classification of modules (Application, Technology, Design) is a guideline for you only.
Necessary steps if you want to take an exam:
1. Register for the module on SELMA.
2. Register for the exam.
• The registration period for the exams is announced by the examination office. Usually , the registration period in the winter semester is in January/February.
• For further information on the exams we will have another meeting in January!
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• Visit the website of the program
https://tu-dresden.de/ing/elektrotechnik/studium/studieren-an-der-fakultaet/master-nes
• Ask fellow students or your mentor
• Contact the academic advisor (study course, general problems,...)
Manuela Tetzlaff, BAR 161, phone: +49 351 37363Tuesday: 13:00 – 14:00 (via ZOOM-Meeting, phone)Thursday: 13:00 – 14:00 (via ZOOM-Meeting, phone)
Email: [email protected]
• Contact the examination office (questions about exams, (de-)registration, grades, ...)Denise Hartfiel, BAR 177aTelephone Advice Service: tba
• Contact the international office (questions about enrollment, visa, leave of absence, ...)Email: [email protected]
Solving problems
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Check regularly your TU Dresden email account to ensure that you do not miss any important information!
Most deadlines are very strict, do not miss a deadline!
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German language and culture
German Language and Culture (Module NES-30 GLC-14.1 )
https://tu-dresden.de/ing/elektrotechnik/studium/studienbeginn/ese
Welcome Meeting Master‘s Program Nanoelectronic SystemsThomas Mikolajick | Manuela Tetzlaff Dresden, 07.10.2021
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Studying in Germany
• 15 weeks lectures, tutorials and lab courses, 4 weeks exams afterwards
• Learning during the exam weeks only is not enough! attend all classes every week, participate actively and start working on problems during thesemester treat your study like a 40hour, full-time-job
Workload for each module is given in the module description
• Rule of thumb: 1 credit point is earned through 30 hours of work!
• Example: 180 hours (6 CP) for „Fundamentals of Estimation and Detection“
Lectures (2 hours x 15 weeks) 30
Tutorials (2 hours x 15 weeks) 30
Preparation for exam (38 hours) 38
Exam (2 hours) 2
Self-Study (5:20 hours x 15 weeks) 80
Workload 180
• Rework transcript after lecture
• Read transcript before next lecture
• Solve exercises
• Discuss issues with fellow students
• Studying related books
• etc.
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German culture
• What do you consider as typical characteristics of Germans, which have you heard about?
• Which German characteristics have you encountered?
• Choose one German characteristic and explain the difference to the culture of your homecountry?
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German culture
• Come to appointments and lectures in time (and observe deadlines!)
• Salutation with title and surname (especially for people that are hierarchically higher than you)
• More subject- and work-oriented than people-oriented
• Direct criticism no loss of face
• If you have any questions: don‘t be afraid to ask!
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Study commission
Prof. Thomas Mikolajick (Dean of Studies)
Prof. Gerhard Fettweis Prof. Kambiz Jamshidi
Student representatives
• Jonas Reinhardt
• Shambhavi Balamuthu Sampath
Consulting members (without a vote)
• Prof. Christof Fetzer
• Ellen Töpfer (Examination Office)
• Manuela Tetzlaff (Study Advisor)
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NES student mentoring program
YOU MENTOR