Name | Prof. Dr. Mathieu Luisier |
Field | Computational Nanoelectronics |
Address | Institut für Integrierte Systeme ETH Zürich, ETZ J 82 Gloriastrasse 35 8092 Zürich SWITZERLAND |
Telephone | +41 44 632 53 33 |
mluisier@iis.ee.ethz.ch | |
Department | Information Technology and Electrical Engineering |
Relationship | Full Professor |
Number | Title | ECTS | Hours | Lecturers | |
---|---|---|---|---|---|
227-0003-00L | Digital Circuits | 4 credits | 2V + 2U | M. Luisier | |
Abstract | Digital and analogue signals and their representation. Combinational and sequential circuits and systems, boolean algebra, K-maps. Finite state machines. Memory and computing building blocks in CMOS technology. | ||||
Learning objective | Provide basic knowledge and methods to understand and to design digital circuits and systems. | ||||
Content | Digital and analogue signals and their representation. Boolean Algebra, circuit analysis and synthesis, the MOS transistor, CMOS logic, static and dynamic behaviour, tristate logic, Karnough-Maps, hazards, binary nuber systems, coding. Combinational and sequential circuits and systems (boolean algebra, K-maps, etc.). Memory building blocks and memory structures, programmable logic circuits. Finite state machines, architetcure of microprocessors. | ||||
Lecture notes | Lecture notes for all lessons, assignments and solutions. https://iis-students.ee.ethz.ch/lectures/digital-circuits/vorlesung/ | ||||
Literature | Literature will be announced during the lessons. Access to the book «J. Reichardt, "Digitaltechnik: eine Einfuehrung mit VHDL", 4th edition, De Gruyter Studium, 2017.» is provided online by the ETH Library. | ||||
Prerequisites / Notice | No special prerequisites. | ||||
227-0005-10L | Digital Circuits Laboratory | 1 credit | 1P | A. Emboras, M. Luisier | |
Abstract | Digital and analogue signals and their representation. Combinational and sequential circuits and systems, boolean algebra, K-maps. Finite state machines. Memory and computing building blocks in CMOS technology, programmable logic circuits. | ||||
Learning objective | Deepen and extend the knowledge from lecture and exercises, usage of design software Quartus II as well as an oscilloscope | ||||
Content | The contents of the digital circuits laboratory will deepen and extend the knowledge of the correspondent lecture and exercises. With the help of the logic device design software Quartus II different circuits will be designed and then tested on an evaluation board. You will build up the control for a 7-digit display as well as an adder and you will create different types of latches and flip-flops. At the end of the laboratory a small synthesizer will be programmed that is able to play self-created melodies. At the same time the usage of a modern oscilloscope will be taught in order to analyse the programmed circuits through the digital and analogue inputs. | ||||
Lecture notes | Lecture notes for all experiments. https://iis-students.ee.ethz.ch/lectures/digital-circuits/praktikum/ | ||||
Prerequisites / Notice | No special prerequisites |