Digital Integrated Circuits 2 (ILV)

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Course lecturer:

 Philipp Sommeregger , MSc
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Course numberM2.02840.20.021
Course codeDigital2
Curriculum2023
Semester of degree program Semester 2
Mode of delivery Presencecourse
Units per week3,5
ECTS credits5,0
Language of instruction English

? Students understand typical digital design tasks in industry like filtering, processing, interfacing (communication), testing and debugging ? They can implement the theory in practical project work

ILV ?Analog Integrated Circuits 1?

? Additional number systems and math like fix-point and floating point in hardware, error detecting and error correcting codes ? Signal processing basics like sampling (AD/DA conversion), decimation/interpolation ? Basic filter structures like: averaging, CIC, FIR, IIR structures, all-pass filters, droop compensation ? Basic microprocessor design, instruction set architectures, ALU, register files, simple bus interfaces ? More digital design basics (asynchronous) like sequential asynchronous logic, 4-level logic, (quasi-)delay-insensitiveness, Muller C-element ? More digital design concepts like structures for speed up (pipelining, polyphase, caching), low power (clock gating, clock scaling, voltage scaling), for small area (bit-serial), multiple clock domains (synchronising) ? More design for test basics (boundary scan, scan isolation, test modes), jTag debug interface ? Practical Examples

Lecture material as provided in the course (required) Recommended reading as follows: ? F. Vahid, Digital Design with RTL Design, VHDL, and Verilog, Wiley, 2011. ? H. Kaeslin, Digital Integrated Circuit Design - From VLSI Architectures to CMOS Fabrication, Cambridge University Press, 2008. ? U. Meyer-Baese, Digital Signal Processing with FPGAs, Springer, 2004. ? B. Oppenheim, R. Schafer, Discrete-Time Signal Processing, Pearson, 2009. ? J. Sparso, Principles of Asynchronous Circuit Design: A System Perspective, Springer, 2002.

Project-based learning based on hands-on examples. Collaborative learning based on assignments covering different topics. Flipped classroom by incorporating student presentations from asynchronous learning (homework) tasks.

Integrated module examination Immanent examination character: Written/oral exam, including homework assignments, presentations and lecture contribution