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## Electronic Design Automation (Automatisierung des Entwurfs elektronischer Systeme)

Vortragende/r (Mitwirkende/r) Helmut Gräb 0000001855 5 SWS Wintersemester 2022/23 Englisch Siehe TUMonline

### Lernziele

At the end of the module students are expected to be capable of employing algorithms for computer-aided design of (digital) integrated circuits, electronic systems, and other emerging platforms. These comprise: synthesis and optimization of digital circuits on logic level; simulation of digital circuits on logic level; mixed integer linear programming (MILP) modeling of EDA problems. With a good understanding of the inner workings of modern EDA tools, students can use and develop EDA tools more effectively and efficiently.

### Beschreibung

Logic Synthesis: Boolean functions, synthesis of 2-level combinational circuits, heuristic minimization of 2-level combinational circuits, synthesis of multi-level combinational circuits, ordered binary decision diagrams, synthesis of sequential circuits with finite state machines (FSM); Logic Simulation: event-driven simulation, modeling and simulation using VHDL; Mixed Integer Linear Programming (MILP) Modeling: properties of modeling method, mathematical modeling techniques (constraint linearization, OR-relation transformation, propositional logic modeling, absolute value modeling), modeling common EDA problems including grid routing, gridless routing, escape routing on printed circuit board (PCB), area routing on PCB, non-overlapping placement, area minimization, network flow, etc. Additional Topics: modeling applications in emerging technologies.

### Inhaltliche Voraussetzungen

Fundamentals of digital logic design; fundamental engineering mathematics

### Lehr- und Lernmethoden

Learning method: In addition to the individual methods of the students, consolidated knowledge is acquired by exemplary solutions to exercises and plentiful examples in the lectures. Teaching method: Students are instructed in a teacher-centered style during the lectures. The exercises are held in a teacher-centered way, but with plenty of potential for interaction. The lecturer also welcomes discussion. The following kinds of media are used: - Blackboard presentations - Comprehensive collection of formulas and algorithms - Catalog of exercises with solutions - Additional examples and demos are available online

### Studien-, Prüfungsleistung

Written examination (100%) with the following elements: - questions that cover the knowledge of the course content - hand calculations that cover the ability to solve problems 75 minutes, open book policy, non-programmable calculator permitted

### Empfohlene Literatur

The following literature is recommended: - Algorithms for VLSI Design Automation; Sabih H. Gerez; John Wiley &amp; Sons 1999. - Synthesis and Optimization of Digital Circuits; De Micheli, Giovanni; McGraw-Hill 1994. - VLSI Physical Design Automation; S. Sait, H. Youssef; McGraw-Hill 1995. - Applied Mathematical Programming; Bradley, Hax, and Magnanti; Addison-Wesley 1977.

## Vollständiges Lehrangebot

Bachelorbereich: BSc-EI, MSE, BSEDE

 WS SS Diskrete Mathematik für Ingenieure (BSEI, EI00460) Discrete Mathematics for Engineers (BSEDE ) (Schlichtmann) (Januar) WS SS Entwurf digitaler Systeme mit VHDL u. System C (BSEI, EI0690) (Ecker) SS Entwurfsverfahren für integrierte Schaltungen (MSE, EI43811) (Schlichtmann) WS Methoden der Unternehmensführung (BSEI, EI0481) (Weigel) WS Praktikum System- und Schaltungstechnik (BSEI, EI0664) (Schlichtmann et al.) SS Schaltungssimulation (BSEI, EI06691) (Gräb/Schlichtmann)

Masterbereich: MSc-EI, MSCE, ICD

 SS Advanced Topics in Communication Electronics (MSCE, MSEI, EI79002) WS Electronic Design Automation (MSCE, MSEI, EI70610) (B. Li, Tseng) WS Design Methodology and Automation (ICD) (Schlichtmann) (Nov) WS SS Machine Learning: Methods and Tools (MSCE, MSEI, EI71040) (Ecker) WS SS SS Mathematical Methods of Circuit Design (MSCE, MSEI, EI74042) (Gräb) Simulation and Optimization of Analog Circuits (ICD) (Gräb) (Mai) WS Mixed Integer Programming and Graph Algorithms in Engineering Problems (MSCE, MSEI, EI71059) (Tseng) WS SS Numerische Methoden der Elektrotechnik (MSEI, EI70440) (Schlichtmann oder Gräb) WS WS SS Seminar VLSI-Entwurfsverfahren (MSEI, EI7750) (Schlichtmann/Müller-Gritschneder) Seminar on Topics in Electronic Design Automation (MSCE, EI77502) (Schlichtmann/Müller-Gritschneder) WS SS Synthesis of Digital Systems (MSCE, MSEI, EI70640) (Müller-Gritschneder) WS Testing Digital Circuits (MSCE, MSEI, EI50141) (Otterstedt) WS Timing of Digital Circuits (MSCE, MSEI, EI70550) (B. Li, Zhang) WS SS VHDL System Design Laboratory (MSCE, MSEI, EI7403) (Schlichtmann)

`MSE: Munich School of Engineering (TUM)`

BSEDE`: Bachelor of Science in Electronics and Data Engineering`` (TUM-Asia)`

`ICD: Master of Science in Integrated Circuit Design (TUM-Asia)`

`MSCE: Master of Science in Communications Engineering (TUM)`

`MSEI: Master of Science in Elektrotechnik und Informationstechnik`

`BSEI: Bachelor of Science in Elektrotechnik und Informationstechnik`

Aktuelle Infos zur Lehre/Current information on teaching: https://www.tum.de/die-tum/aktuelles/coronavirus/studium/, www.ei.tum.de