Computer Engineering is a relatively new discipline, but its popularity and relevance have grown tremendously with the recent proliferation of digital computers in our daily lives.

The Master of Science in Computer Engineering (MSCE) program in the Department of EECS has three areas of primary focus:

SCHOLARSHIP

Khalifa University of Science and Technology offers Graduate Research / Teaching Assistant (GRTA) scholarships to support qualified international students enrolled in graduate programs.

The scholarship provides generous remuneration and benefits that include:

Application Opening!

We will start taking applications starting November 1st, 2018 for the next intake in September 1st, 2019.

The degree of Master of Science in Electrical and Computer Engineering (M.Sc. in ECE) is awarded for successfully completing the requirements of a program of study, which includes taught courses as well as thesis. The thesis is an independent investigation of specialized areas within the general field of electrical and computer engineering and associated disciplines. The M.Sc. in ECE gives candidates the opportunity to deepen their knowledge in the broad field of ECE and contribute to the process of discovery and knowledge creation through the conduct of original research. Candidates for this degree are taught and supervised by experienced faculty and are expected to demonstrate initiative in their approach and innovation in their work. In addition to successfully completing the taught course component of the program, candidates prepare and present a thesis on their chosen area. Research may be undertaken in several topics corresponding to the areas of focus identified by the University.... [-]

Offered through the Department of Electrical and Computer Engineering, the M.S. in Computer Engineering prepares students to learn and apply sophisticated computer architecture and integrated circuit design techniques using industry-standard computer-aided design tools. Faculty and students work together to explore solutions for photonic computing; create state-of-the-art advances in high-performance computing, and improve the reliability of cloud computing.

The program offers up-to-date knowledge and skills in the advances of computer systems architecture and networking, as well as the rapidly-growing use of superscalar microprocessors, real-time embedded systems, VLSI and ASIC design modules, digital signal processors, and networked computing platforms. The program offers a flexible schedule that includes courses in the late afternoon and evening, as well as the ability to choose a thesis or non-thesis degree option.... [-]

The purpose of the graduate programs in Computer Engineering (CpE) is to facilitate the student's continued professional and scholarly development. The Master of Science (M.S.) program is designed to extend the student's knowledge and emphasize a particular area of concentration.

Typical areas of concentration include:

Required Courses

Breadth Courses

Breadth courses are defined as any CSE course that is not in the student's major field(s) of study. Each breadth course should be in a different field of study, if possible. The Structured Option students will choose THREE breadth courses.... [-]

https://www.scss.tcd.ie/postgraduate/msc-cs/

Prof. Donal O'Mahony

+353-1-896 3692

postgraduate@scss.tcd.ie

September 2018

The new MSc in Computer Science has a common set of entry criteria and leads to a Master's degree in Computing specializing in one of four exciting areas: Data Science, Intelligent Systems, Augmented and Virtual Reality and Future Networked Systems.

The course is designed and taught by staff who are renowned research leaders in their fields. The course content is inspired by their cutting-edge work as well as their contacts with leading industry researchers around the globe.... [-]

Computation and physics are an integral part of modern society and science.

One cannot overstate the importance of scientific knowledge and computational engineering in the global information society and industrial economy, particularly as the systems we use to grow more and more complex.

Effective computational engineering allows for shorter design cycle times, better product quality and improved functionality. Knowledge of physics helps us appreciate, comprehend and interact better with the environment.

In this Master's Programme, you will acquire extensive knowledge either in technical physics, mathematics or computing and their application to the rapidly changing problems of industrial and economic life.... [-]

MSc in Computer Engineering

The curriculum for the M.S. degree in computer engineering includes 45 quarter credit hours and includes the following requirements: four core courses (16 quarter credits), two graduate electives (8 quarter credits), three courses in a concentration chosen by the student (12 quarter credits), and a master’s research thesis (9 quarter credits). All computer engineering students with graduate standing are expected to attend the Computer Engineering Graduate Seminar. These courses build on the knowledge a student has previously gained through a BS degree in computer engineering or a related discipline.

Thesis researchOne critically important aspect of graduate study is the student’s preparation to lead challenging, state-of-the-art technical projects. To do this effectively, it is essential that the student obtain experience in reviewing related work of others in the field, as well as to conduct meaningful independent research under faculty mentorship. The graduate thesis is the degree component that addresses these issues. Thesis work begins by selecting a faculty adviser, identifying a topic, forming a committee, and submitting a proposal. The thesis topic, formulated by working closely with a faculty adviser, is related to recent technical developments in the field of computer engineering. Upon completion of the research outlined in the thesis proposal, the work is reported in a document submitted to the faculty committee and a thesis defense presentation. A technical paper resulting from the thesis research is submitted to a refereed conference or journal for publication... [-]

The use of digitally connected systems is increasing in every industry. The developments currently unfolding under the buzzword "Industry 4.0" are essentially based on the comprehensive digital representation of every step in the value chains in industrial production.

From the planning phase through to the design/draft and production process to monitoring products over their service-life, virtual product and process models are networked with each other to expedite development processes, raise product quality, and optimise production. That is why these developments require well-trained specialists at the interface of computer science and engineering.

This course of study, which was jointly developed by participants from the professorships of Engineering and Computer Science and Media at the Bauhaus-Universität Weimar, is designed to provide you flexible and interdisciplinary training to meet the challenges you’ll face in the professional world of tomorrow.... [-]

If you're already a successful networking professional who wants to advance your career to the next level, this unique one-year master's programme is designed for you. The only programme of its kind in the world, GCU's MSc Advanced Internetwork Engineering will prepare you for the Cisco Certified Internetwork Expert (CCIE) exam.

The programme offers a structured, supported path so you can develop expert-level network engineering skills and achieve CCIE certification. With this elite credential, you'll be a competitive candidate for senior-level and leadership roles in network engineering.

We partnered with Internetwork Expert Inc. (INE), the leaders in CCIE preparation, to develop this programme. Students learn about INE's CCIE Routing and Switching Workbook and remote rack management systems, the global gold-standard in CCIE prep materials.... [-]

Designing the System is No Longer Enough — Are You Prepared?

"Anyone designing computer systems must have a firm grasp on all aspects of cybersecurity."

— Bradley Cain, Senior Architect, F5 Networks

Engineering leaders know a system's design is only as strong as its security. Now there's an online program specifically architected to arm you with the right skills. The online Master of Science in Electrical and Computer Engineering helps you master skills taught in other ECE programs, as well as provide you with the critical insight to secure, protect and implement the systems you create. This is one of the first online programs to present advanced electrical and computer engineering concepts and application through a cybersecurity lens.... [-]

Online Courses in partnership with The Training Portal

COM503CompTIA N10-006: CompTIA Network+

COM504CompTIA CAS-001: Advanced Security Practitioner (CASP)

PHU Online Courses

MGT501Business Management and Leadership

MGT504Knowledge Management and Technology

MGT507Online Business and eCommerce Management

MGT509Project Management

MGT513Business Process Management

Students can enroll at any time from anywhere. There is also flexibility in pacing the course.

At the post-graduate level, the department offers 2-year degree course in Master of Technology (M.Tech.) in Computer Science & Engineering with an intake of 20 students. The objective of the programme is to provide the students with an opportunity to satiate their hunger for higher learning. The programme provides intensive training to the students at advanced level to enable them to take up research & development activities. Personal attention is paid to each student with intensive practical training. The course curriculum is so designed as to cater to the needs of the industry as well as the research & development organizations. The programme helps the students to specialize in an area of their choice, thus leading to their rise in the academic & professional societies and enabling them to carve a niche for themselves. Some of the obligatory courses are as following: Advanced Computer Networks Prerequisites: Computer Networks Introduction to basic models, TCP/IP model and its protocols in detail, IP, TCP, Addressing and subnetting. Flow and Congestion Control; Window and Rate Based Schemes, Decbit, TCP. ATM, ABR, hop-by-hop schemes, Quality of Service: in ATM, IETF integrated services model, Differentiated Services Model. Flow identification, Packet Classifiers and Filters. Scheduling. Network Management: ASN, SNMP, CMIP. Issues in the management of large networks. Multicast: IGMP, PIM, DVMRP, Mobility: Mobile IP. And TCP. The architecture of High-Performance Computer Systems Prerequisites: Operating System Concepts. Contents: Classification of parallel computing structures; Instruction level parallelism - static and dynamic pipelining, improving... [-]

The Computer Engineering (CpE) Ph.D. program prepares students for careers in research or academia with specializations including computer systems and reconfigurable devices, sensor networks, software engineering, intelligent systems and Machine Learning, and computer networks.

Orlando, one of the nation's most dynamic metropolitan areas and noted for its quality of life and vacation attractions, is the center of Florida's I-4 High Technology Corridor. The university campus is adjacent to the Research Park, which is one of the nation's most successful technology parks. Our university and its Research Park offer educational, research and career opportunities in a vast number of computer engineering careers, including simulation systems, communication networks, software engineering, avionics, telecommunications, and much more.... [-]

Computer scientists and engineers apply the theories and principles of mathematics and science to design computers, software, networks, and processes.

What to Expect

The Computer Science and Engineering Program in the College of Engineering and Computing offers three undergraduate degree programs including a B.S. in Computer Science, a B.S.E. in Computer Engineering and a B.S. in Computer Information Systems.

The computer science degree covers the techniques, algorithms, and theory necessary for building software, including subspecialties such as video games, bioinformatics and computational biology, computer forensics, geographic information systems, Web applications, enterprise computing, scientific computing, databases, and others.... [-]

Do you ever feel like some form of computer runs every part of your life? For the past 20 years, an explosion in technology has caused nearly every aspect of our lives to be driven by a computer. With the increasing need for computer and systems to interact efficiently, this new wave of technology will continue to accelerate.

Professionals with the knowledge to integrate expertise from both electrical engineering and computer science are in high demand. Our computer engineering programs will give you the skills in both fields.

What can you do with a computer engineering degree?

You might be working with industrial robotics, artificial intelligence, automobile control systems, home automation, voice/speech recognition, vehicle highway systems, even games, and toys.... [-]