Module Number: EI7403
Duration: 1 Semseter
Occurence: Winter/summer semester
Number of ECTS: 6
Professor in charge: Ulf Schlichtmann
Contact hours: 60
Self-studying hours: 120
Examination with the following elements:
- Oral examination (60%)
- Homework and projects: (40%)
Exam type: written
Exam duration: 60 min.
Possibility of re-taking: In the next semester: Yes; at the end of the semester: No
Written paper: Yes
Fundamentals of digital logic design; fundamentals of programming
The following modules should be passed before taking the course:
- Digital IC-Design
It is recommended to take the following modules additionally:
Design of a security IC using the HW description language VHDL: hierachical description of the encryption method on algorithmic and register-transfer level, implementation of test environments (test benches) using simulation to verify functionality and timing reference model in JAVA, insight into the internal steps of hardware synthesis, implementation on FPGA, FPGA design flow with industry-relevant tools, FPGA programming via USB, design test using a test program on PC.
At the end of the module students are capable of designing a digital circuit in VHDL using industry-relevant design software. They are familiar with the usage of a hardware-oriented description language (VHDL) to describe and to design integrated circuits and systems.
- Learning method: In addition to the individual methods of the students consolidated knowledge is acquired by providing subtasks of increasing complexity and difficulty in the laboratory notes.
- Teaching method: Students are free to work on their own, according to their own scheudule on the laboratory tasks. Students can work on the labortaory either in institute rooms or at home. An advisor is available who will support them in case of siginificant difficulties.
The following kinds of media are used:
- Introductory lectures
- Lecture slides available
- Laboratory notes with detailed descriptions of tasks and tool environments
- Individual discussions with advisor
The following literature is recommended:
- ANSI, IEEE Standards Board, IEEE Standard VHDL Language Reference Manual: IEEE std. 1076-1993, New York, 1988, ISBN 1559373768
- Peter J. Ashenden, Designer's Guide to VHDL, Morgan Kaufmann Publishers, 1995, ISBN 1558602704
- More literature listed in laboratory notes