700.132 (23S) Design of Digital Circuits
Overview
- Lecturer
- Course title german Design of Digital Circuits
- Type Course (continuous assessment course )
- Course model Attendance-based course
- Hours per Week 2.0
- ECTS credits 3.0
- Registrations 34
- Organisational unit
- Language of instruction Englisch
- possible language(s) of the assessment English
- Course begins on 16.03.2023
- eLearning Go to Moodle course
Time and place
Course Information
Intended learning outcomes
Applying the concepts of both combinational and sequential logic to design basic logical circuits to implement simulations for arithmetic and combinational circuits.
Teaching methodology
Modus is
- a fluent mix of lecture-like in-class teaching
- solving of exercises that are provided on exercise sheets together and at home
- requesting participants to actively contribute / solve exercises in-class
- working with simulation software to implement, analyze and test simulations of logical circuits
Course content
This course goes hand in hand with the lecture “Design of digital Circuits” and repeats and deepens the topics. The focus lies on practically working on problems involving Boolean Algebra, optimizing digital circuits and logical expressions as well as working with finite state machines. Students get a hands-on-training in understanding logical problems, designing and implementing an appropriate solution and testing the solution against correctness.
Topics are:
- Boolean Algebra, Logic Standard Forms, Transformation of Boolean equations
- Minimization and optimizing of logical circuits
- Design of combinational circuits
- Design of sequential circuits
- Working with a simulation tool to implement and test logical circuits
Examination information
Examination methodology
- Written exam at the end of the course
- Closed books exam
- 75 minutes
Examination topic(s)
Exam covers all topics of this course.
Assessment criteria / Standards of assessment for examinations
This course demands a continuous assessment of course work. As such, students are required to continuously participate, contribute and submit exercises they receive through the course of the semester.
In particular:
- Attendance is mandatory
- Contributions during the course count
- Checklists for exercises / solutions
- Two larger practical exercises (lab-units) with separate grading
- Exam is graded with points
To pass this course, the final exam must be positively graded and a minimum number of points from the assessments from the whole course throughout the semester must be received. Detailed information on that will be shared in the initial course unit.
Grading scheme
Grade / Grade grading schemePosition in the curriculum
- Bachelor's degree programme Robotics and Artificial Intelligence
(SKZ: 295, Version: 22W.1)
-
Subject: Information and Communications Engineering
(Compulsory subject)
-
5.1 Design of Digital Circuits (
2.0h KS / 3.0 ECTS)
- 700.132 Design of Digital Circuits (2.0h KS / 3.0 ECTS)
-
5.1 Design of Digital Circuits (
2.0h KS / 3.0 ECTS)
-
Subject: Information and Communications Engineering
(Compulsory subject)