Petros Koumoutsakos: Catalogue data in Spring Semester 2016 |
Name | Dr. Petros Koumoutsakos |
URL | http://www.cse-lab.ethz.ch/index.php?&option=com_content&view=article&id=100&catid=38 |
Department | Mechanical and Process Engineering |
Relationship | Full Professor |
Number | Title | ECTS | Hours | Lecturers | |
---|---|---|---|---|---|
151-0112-10L | Engineering Tool III: Object Oriented Programming with C++ The Engineering Tool course is for MAVT-Bachelor students only. The enrollment in either this course or in the course "Engineering Tool III: FEM-Programme" (151-0042-01L) is mandatory. Only one course can be chosen per semester. All Engineering Tool courses are for MAVT-Bachelor students only. | 0.4 credits | 1K | P. Koumoutsakos, C. Conti | |
Abstract | Introduction to object oriented programming with C++. Fundamental concepts, simple applications and hands on tutorials. | ||||
Learning objective | Learn basic concepts of object oriented programming in C++: classes, inheritance, polymorphism and STL | ||||
Content | Tutorials, hands on exercises | ||||
Lecture notes | Handouts | ||||
Literature | Programming: Principles and Practice using C++ (B. Stroustrup) | ||||
Prerequisites / Notice | Prerequisites: "Informatik" (2nd semester lecture), laptop (at least one every two students). We will use a VirtualBox linux environment (as in "Informatik", 2nd semester). This Engineering Tool is a prerequisite for the class "Computational Methods for Engineering Applications I" | ||||
151-0431-00L | Computational Methods for Engineering Applications | 4 credits | 2V + 1U | P. Koumoutsakos | |
Abstract | Fundamental Computational Methods for data analysis, modeling and simulation relevant to Engineering applications. The course emphasizes the implementation of these methods using object oriented programming in C++ with application examples drawn from Engineering applications | ||||
Learning objective | The course aims to introduce Engineering students to fundamentals of Interpolation, Solution of non-linear equations, Filtering and Numerical Integration. The course aims to integrate numerical methods with enhancing the students programming skills in object oriented languages. The course serves as foundation for Computational Methods in Engineering Applications II (Fall Semester), that is concerned with Ordinary and Partial Differential Equations. | ||||
Lecture notes | Lecture Notes will be distributed in class | ||||
Literature | 1. Introduction to Applied Mathematics, G. Strang 2. Analysis of Numerical Methods, Isaacson and Keller | ||||
Prerequisites / Notice | - Informatik - 151-0112-10L Engineering Tool III: Object oriented programming with C++ | ||||
151-1053-00L | Thermo- and Fluid Dynamics | 0 credits | 2K | P. Jenny, R. S. Abhari, K. Boulouchos, P. Koumoutsakos, C. Müller, H. G. Park, D. Poulikakos, H.‑M. Prasser, T. Rösgen, A. Steinfeld | |
Abstract | Current advanced research activities in the areas of thermo- and fluid dynamics are presented and discussed, mostly by external speakers. The talks are public and open also for interested students. | ||||
Learning objective | Knowledge of advanced research in the areas of thermo- and fluid dynamics | ||||
Content | Current advanced research activities in the areas of thermo- and fluid dynamics are presented and discussed, mostly by external speakers. | ||||
252-5251-00L | Computational Science | 2 credits | 2S | P. Arbenz, T. Hoefler, P. Koumoutsakos | |
Abstract | Class participants study and make a 40 minute presentation (in English) on fundamental papers of Computational Science. A preliminary discussion of the talk (structure, content, methodology) with the responsible professor is required. The talk has to be given in a way that the other seminar participants can understand it and learn from it. Participation throughout the semester is mandatory. | ||||
Learning objective | Studying and presenting fundamental works of Computational Science. Learning how to make a scientific presentation. | ||||
Content | Class participants study and make a 40 minute presentation (in English) on fundamental papers of Computational Science. A preliminary discussion of the talk (structure, content, methodology) with the responsible professor is required. The talk has to be given in a way that the other seminar participants can understand it and learn from it. Participation throughout the semester is mandatory. | ||||
Lecture notes | none | ||||
Literature | Papers will be distributed in the first seminar in the first week of the semester | ||||
401-0686-00L | High Performance Computing for Science and Engineering (HPCSE) for CSE | 7 credits | 4G + 2P | P. Koumoutsakos, D. Rossinelli | |
Abstract | This course focuses on programming methods and tools for parallel computing on multi and many-core architectures. Emphasis will be placed on practical and computational aspects of Uncertainty Quantification and Propagation including the implementation of relevant algorithms on HPC architectures. | ||||
Learning objective | |||||
401-0686-10L | High Performance Computing for Science and Engineering (HPCSE) for Engineers II | 4 credits | 4G | P. Koumoutsakos, D. Rossinelli | |
Abstract | This course focuses on programming methods and tools for parallel computing on multi and many-core architectures. Emphasis will be placed on practical and computational aspects of Uncertainty Quantification and Propagation including the implementation of relevant algorithms on HPC architectures. | ||||
Learning objective |