The Computer Engineering Department was seeded back in 1967, as a service department to teach courses in computer science discipline to other academic departments in Middle East Technical University (METU). In 1977, the department was integrated into Faculty of Engineering with the current name of ?Computer Engineering Department?, delegated the new mission of providing degree programs of its own.
The goal of the Department of Computer Engineering at Middle East Technical University is to teach, produce and disseminate theory, principles, practice and know-how of computing for the critical analysis, design, evaluation, and improvement of computer-based systems in the contexts of computers and man, computers and the society, computers and the industry and services.
The Computer Engineering undergraduate program is accredited by the Engineering Accreditation Commission of ABET.
Most of the courses require the students to implement their projects and homeworks on modern (Unix/Linux/Solaris/Windows) operating systems. There are 3 individual laboratories where lab sessions are performed and students can implement their projects and homeworks. All the computers are inter-connected via Gigabit Ethernet, which is linked to the METU Campus Backbone via fiber connection. These laboratories include Intel-based all-in-one computers, running Linux (Ubuntu) operating systems. The laboratories are equipped with high performance servers.
Other than software laboratories, a hardware laboratory is used in practical work, concerning courses such as EE 281 Electrical Circuits, CENG 232 Logic Design, CENG 336 Introduction to Embedded Systems Development.
Each student obtains a computing account to be used in the department. This account comes with an email service, a file-storage area which students can use to publish their websites. We also maintain a Newsserver which provides news channels in various topics, to induce communication and discussion among the students and faculty.
The students are able to access the department's wireless network. We currently have eleven wireless access points covering the Department's both buildings and also .
There is a High Performance Computing cluster in the department, which is used for research and coursework. The system has 46 nodes, with a total of 368 cpu cores, 736 GB main memory and 6 TB of shared storage area. More information on the HPC system can be found at .
There is a BigData sever in the department, which is used for research and coursework. The system has 7 nodes with a total of 224 CPU cores, 896 GB main memory, 2*200 SSD system disks and 336 TB of shared storage area. The MapR Converged Data Platform which is the industry?s only platform to integrate the enormous power of Hadoop and Spark with global event streaming, real-time database capabilities, and enterprise storage is installed to the servers.
The executive MBA program provides a one-year course of study for experienced, upwardly mobile managers dedicated to the pursuit of excellence. Participants receive an intense academic and practical management education in an in-depth program that balances leading-edge business theory with the study of leadership and teamwork to arrive at creative solutions to real world challenges. The program focuses on "how to think" rather than "what to think". The aim of the program is to give executives the insight and strategic thinking necessary for driving their organizations into the future with success.
Participants of the Executive MBA Program will master both the details and the entire picture in the local and global contexts. Foundation (core) courses will provide vital management support and breadth, area courses will provide functional knowledge, and policy courses will integrate the program in the context of strategic thinking.
The Executive MBA Program is a "MBA Program without thesis" with a total of 44 credits.
Software Engineering
Solution Architect
Software Architect
Software Developer
IT Consultant
IT Team Leader
Level / Technology / Experience (in years)
Architecture:
????? Microsoft Patterns and Practices 16
????? Onion/Clean Architecture 10???? Test Driven Development 7
??? Microservices
Project Management:
????? Scrum 12
????? Agile 12Languages:
????? C#/.NET 16
????? HTML, XHTML & CSS 11Cloud Platforms:
????? AWS RDS 12
???? AWS Elastic Beanstalk 5Databases:
????? MS SQL Server 16
???? MySQL 10Frameworks & Libraries:
????? ASP.NET MVC 12
????? REST 7Operating Systems:
????? Windows 23
????? Linux 20Tools:
????? MS Visual Studio 16
????? Git 10Industry Knowledge:
????? IoT & Industrial Automation 9
???? E-Commerce 9???? Banking & Fintech
??? Medical
Medical
IoT & Industrial Automation
The Computer Engineering Department was seeded back in 1967, as a service department to teach courses in computer science discipline to other academic departments in Middle East Technical University (METU). In 1977, the department was integrated into Faculty of Engineering with the current name of ?Computer Engineering Department?, delegated the new mission of providing degree programs of its own.
The goal of the Department of Computer Engineering at Middle East Technical University is to teach, produce and disseminate theory, principles, practice and know-how of computing for the critical analysis, design, evaluation, and improvement of computer-based systems in the contexts of computers and man, computers and the society, computers and the industry and services.
The Computer Engineering undergraduate program is accredited by the Engineering Accreditation Commission of ABET.
Most of the courses require the students to implement their projects and homeworks on modern (Unix/Linux/Solaris/Windows) operating systems. There are 3 individual laboratories where lab sessions are performed and students can implement their projects and homeworks. All the computers are inter-connected via Gigabit Ethernet, which is linked to the METU Campus Backbone via fiber connection. These laboratories include Intel-based all-in-one computers, running Linux (Ubuntu) operating systems. The laboratories are equipped with high performance servers.
Other than software laboratories, a hardware laboratory is used in practical work, concerning courses such as EE 281 Electrical Circuits, CENG 232 Logic Design, CENG 336 Introduction to Embedded Systems Development.
Each student obtains a computing account to be used in the department. This account comes with an email service, a file-storage area which students can use to publish their websites. We also maintain a Newsserver which provides news channels in various topics, to induce communication and discussion among the students and faculty.
The students are able to access the department's wireless network. We currently have eleven wireless access points covering the Department's both buildings and also .
There is a High Performance Computing cluster in the department, which is used for research and coursework. The system has 46 nodes, with a total of 368 cpu cores, 736 GB main memory and 6 TB of shared storage area. More information on the HPC system can be found at .
There is a BigData sever in the department, which is used for research and coursework. The system has 7 nodes with a total of 224 CPU cores, 896 GB main memory, 2*200 SSD system disks and 336 TB of shared storage area. The MapR Converged Data Platform which is the industry?s only platform to integrate the enormous power of Hadoop and Spark with global event streaming, real-time database capabilities, and enterprise storage is installed to the servers.
The executive MBA program provides a one-year course of study for experienced, upwardly mobile managers dedicated to the pursuit of excellence. Participants receive an intense academic and practical management education in an in-depth program that balances leading-edge business theory with the study of leadership and teamwork to arrive at creative solutions to real world challenges. The program focuses on "how to think" rather than "what to think". The aim of the program is to give executives the insight and strategic thinking necessary for driving their organizations into the future with success.
Participants of the Executive MBA Program will master both the details and the entire picture in the local and global contexts. Foundation (core) courses will provide vital management support and breadth, area courses will provide functional knowledge, and policy courses will integrate the program in the context of strategic thinking.
The Executive MBA Program is a "MBA Program without thesis" with a total of 44 credits.
Software Engineering
Solution Architect
Software Architect
Software Developer
IT Consultant
IT Team Leader
Level / Technology / Experience (in years)
Architecture:
????? Microsoft Patterns and Practices 16
????? Onion/Clean Architecture 10???? Test Driven Development 7
??? Microservices
Project Management:
????? Scrum 12
????? Agile 12Languages:
????? C#/.NET 16
????? HTML, XHTML & CSS 11Cloud Platforms:
????? AWS RDS 12
???? AWS Elastic Beanstalk 5Databases:
????? MS SQL Server 16
???? MySQL 10Frameworks & Libraries:
????? ASP.NET MVC 12
????? REST 7Operating Systems:
????? Windows 23
????? Linux 20Tools:
????? MS Visual Studio 16
????? Git 10Industry Knowledge:
????? IoT & Industrial Automation 9
???? E-Commerce 9???? Banking & Fintech
??? Medical
Medical
IoT & Industrial Automation