The Master of Science, or MSc, is an academic degree awarded to those who effectively complete about two years of intensive study on a given topic. Many MSc courses offer a combination of classroom and research-based curriculum.
Request Information Part time Master of Science Degrees in Computer Engineering 2018
Syracuse University's College of Engineering and Computer Science offers an online M.S. in Computer Engineering teaching students to create groundbreaking hardware and software solutions. [+]
Syracuse University’s College of Engineering and Computer Science offers a Master of Science in Computer Engineering program delivered online. The program teaches students to create groundbreaking hardware and software solutions for new and emerging systems while developing the expertise to solve challenging technical problems in this ever-changing industry. The M.S. in Computer Engineering program focuses on key subjects that are crucial to understanding and advancing new and emerging systems. You will learn to drive innovation and solve the most difficult computer engineering challenges with advanced knowledge of key topics including security and assurance, network systems, computer architecture, and advanced programming.... [-]
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. [+]
Prof. Donal O'MahonyTelephone Number
+353-1-896 3692Course Email
September 2018Closing Date 31 July 2018 Options
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.... [-]
The Master’s programme focuses on designing and using complex modern computer systems. As part of the programme, students cover such subjects as innovation and entrepreneurship, hardware systems design and modeling, computer architecture and programming, software project management and databases, to name but a few. [+]
The Master’s programme focuses on designing and using complex modern computer systems. As part of the programme, students cover such subjects as innovation and entrepreneurship, hardware systems design and modeling, computer architecture and programming, software project management and databases, to name but a few.... [-]
The program emphasizes the development of quality software and the transfer of this knowledge to the industry. [+]
The program emphasizes the development of quality software and the transfer of this knowledge to the industry. Topics include requirements and system design, testing strategies, and software development, providing students with the skills needed to carry out major Software Engineering projects.Testimony
Masoom Tulsiani - India - Software Engineering The opportunity to study in a city like Paris and study specialized modules of Mobile Application development attracted me initially to EPITA – MSC in Software Engineering program. The entrepreneurial culture in EPITA and thriving Internet startups in Paris gives a lot of opportunities for engineering students to work for tech companies. I have been given exciting opportunities and ample learning opportunities and training on financial products.... [-]
The objectives of the M.S. degree are to provide graduates with a higher level of specialized knowledge in the area of computer engineering, strengthen their ability to successfully formulate solutions to current technical problems in computer engineering and offer a significant independent learning experience in preparation for further graduate study or for continuing professional development at the leading edge of the computer engineering discipline. [+]
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... [-]
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. [+]
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.... [-]
Image and signal processing affect our daily lives in an ever-increasing way. Participate in designing this fascinating technology and shape IT's future function in business and society. [+]
Imagine the possibilities
Image and signal processing affect our daily lives in an ever-increasing way. Participate in designing this fascinating technology and shape ITs future function in business and society.
Today's networked image and signal generating devices provide a historically unmatched volume of raw data for automated decision making and control systems.
The expectations are high: how can we design new tools and software in order to best distill useful information. A lot of interesting research and development projects in the private and the public sectors are calling for your expertise. Alternatively, this degree will open career tracks in Universities and research centers.... [-]
This programme provides a solid multidisciplinary basis and offers a wide range of specialization opportunities, which can stimulate the creative energies of students. [+]
The Internet Engineering programme aims at producing professionals who will spearhead the design and direction of future Internet architecture, infrastructure and applications. This programme equips graduates with advanced and profound concepts that underlie the design and implementation of Internet-based systems. In addition, students will also acquire practical skills that are crucial for entering the job market.
Your educational journey has been meticulously designed to unlock full potential towards pursuing professional certification and postgraduate studies. All these and much more in unique education package inclusive of a vibrant university life in the heart of Kuala Lumpur.... [-]
Computation and physics are an integral part of modern society and science. 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. [+]
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.... [-]
Computer engineering plays a crucial role in how the future is defined: choosing our Master of Science in Computer Engineering (MSCoE) program means choosing the possibility to be at the forefront of the world's leading technology firms for the rest of your career. [+]
Computer engineering plays a crucial role in how the future is defined: choosing our Master of Science in Computer Engineering (MSCoE) program means choosing the possibility to be at the forefront of the world's leading technology firms for the rest of your career.
An increasingly more vital part of everyday life, computer engineering relates to how some of today's most innovative devices are created.
An academic path distinct from a graduate degree in computer science, which is the systematic study of algorithmic methods for representing and transforming information, computer engineering relates to the design and prototyping of computing devices and systems.
As a computer engineering graduate, you will have the necessary knowledge and experience to pursue cutting-edge projects in the area of hardware and computer development, networks and software creation.... [-]
The Digital Engineering Master's programme places a high premium on introducing you to current research issues that are jointly defined and supervised by industry partners at an early stage. The Digital Bauhaus Lab is a state-of-the-art university research facility offering optimal conditions for success. [+]
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.... [-]
Students of the master’s degree programme in Information and Computer Engineering learn how to handle this phenomenon and to adjust to the necessity of independently and constantly keeping their knowledge up to date. For this reason, the curriculum aims to provide a great deal of freedom in choosing the teaching content and increases students’ independence and initiative in the way they think, decide and act. [+]
Information technologies and electrical engineering continue to develop at a rapid pace and have a major influence on everyday life and business. In the master’s degree programme Information and Computer Engineering taught in English at TU Graz, you work with internationally renowned scientists and teams from industry and research on the technologies of the future.Content You study the main theories, principles and methods of information processing, information technology and electrical engineering. With the support of a mentor, you specialise in two fields. You work on projects with fellow students, and teams from industry and international research. You learn how to present project results in reports and lectures in a scientifically correct manner. You learn how to handle the rapid development of information technologies and electrical engineering and how to update your own knowledge independently. You have the opportunity to complete a study period abroad, providing the ideal complement to your degree programme. Eight fields are available to choose from Secure and Correct Systems Computer Vision and Graphics Robotics and Computational Intelligence Signal Processing and Human Communication Communications and Mobile Computing Embedded and Automotive Systems Measurement and Control Systems Microelectronics and IC Design ... [-]
Computational Engineering [+]
Elective modules:Mathematics Computer Science Technical Application Field (five of these are in English, two in German)
Master’s thesisOccupational fields In industry, development, and research; In machine, plant or vehicle construction; other fields in construction and industry. International Double degree program Computational Engineering; Semester(s) abroad (only available in German); Partner universities of the Faculty of Engineering. Qualification requirements Excellent Bachelor’s degree or equivalent qualification in computer science, a related science or engineering subject or in mathematics. Skills and experience in computing and programming. In addition to knowledge of the basic concepts of computers and computer science, solid programming experience in languages such as C or C++ is expected. Extensive education in engineering mathematics. Interest in solving engineering and science problems using computers and high-performance computers. Language requirements ... [-]
The Master’s program in Computer Engineering provides students with an in‐depth knowledge of the principles of hardware and software design and their interfacing for building complex computer applications. [+]
The Master’s program in Computer Engineering provides students with an in‐depth knowledge of the principles of hardware and software design and their interfacing for building complex computer applications.Curriculum
Required CoursesCPEN 502 Advanced Analysis & Design of Algorithms CPEN 503 Computer and Network Security CPEN 504 Advanced Computer Architectures CPEN 505 Database Management Systems CPEN 550 Operating Systems Programming
Elective Courses (Select a minimum of 15 credits from the list below)CPEN 511 Distributed Systems CPEN 520 Numerical Optimization CPEN 531 Secure Software Systems CPEN 552 Computer Graphics CPEN 640 Embedded Systems CPEN 696 M.S. Project CPEN 697 M.S. Thesis [-]
The programme trains highly qualified roboticists, computer and space engineers. [+]
Master’s programme in Robotics and Computer Engineering trains highly qualified roboticists, computer and space engineers. The programme provides broad knowledge in the field of robotics, computer engineering or space technology. Graduates can work in enterprises or research and development centers connected to their field of study.Why study Robotics and Computer Engineering? The University of Tartu belongs to the TOP 1.2% of the world's best universities. Studies are conducted in collaboration with research groups: students have an opportunity to build their own satellite! Student satellite EstCube-2 will be launched in 2018 while the first one, EstCube-1, launched in 2013, made Estonia the 41st space nation. Practical approach: students can work for a semester for a company or research group in their chosen field. Students can also replace a study module with a semester abroad either studying at another university or working for a research company. Students can also take management and economy courses to be able to start their own business. Modern buildings and laboratories: study building Physicum was opened in 2014 and its 13,000 square meters provides contemporary facilities for research in physics, materials science and nanotechnology. Students obtain knowledge of both hardware and software. Great scholarship opportunities: most students receive a tuition-waiver scholarship, monthly stipends also available Graduates are ready to work in the industry as well as in the field of research, development, and innovation. [-]