Compare 27 Masters Programs in Computing
When individuals begin working toward a master’s degree, they can usually expect to spend one to three years in school. Students typically complete a research project or thesis before graduation. The knowledge and skills gained from a postgraduate degree prepare a person for a higher paying career or for acceptance into a doctoral program.
An individual with an undergraduate degree may wonder, what is a Master in Computing? This type of program provides critical knowledge about the role of digital systems and their management within organizations. Computation and programming languages will be developed at an advanced level. Coursework includes information technology project topics, database management issues, ethics, digital innovation, research and the human/computer interface. Instructors frequently focus on the practical application of theories in the field.
A student who completes a computing master’s achieves an advanced level of knowledge that directly correlates with potential careers. Problem-solving skills and management techniques prepare students for roles in administrative capacities.
Computing is a global field, and advanced courses are available almost anywhere in the world. This makes it difficult to pin down a list of expenses or predict an average cost. After determining which program meets the educational goal, an individual may be able to figure a rough estimate of the financial amount necessary to graduate.
Positions as software developers and engineers are currently available all over the world. Government agencies, military operations, public and private organizations and universities all require advanced computing by employees to facilitate the design and development of software and hardware and digital technologies. A graduate may be employed in quantum computing or opt for a career as a research engineer, IT manager or business analyst.
Some students prefer to attend a university at a physical location, while others require the flexibility of online courses. Curricula are available to meet a variety of educational goals. Search for your program below and contact directly the admission office of the school of your choice by filling in the lead form.
27 Results in Computing Filter
In today’s world, mobile apps are ubiquitous, delivering solutions to modern life. As a medium for creative and artistic expression, they provide answers to everyday problems with clever design and user insights. App development offers a wealth of creative opportunity in an evolving arena that reacts rapidly to technological advances.
Our master programme will provide you with the key competencies that you will need to develop next-generation information systems used to describe and manage data, discover new facts and relations in the data, make predictions, and give advice to decision makers.
The digital market is rapidly changing and the information system has become a productivity tool, competitiveness and differentiation. The Master adapts and changes, especially around the web and mobile applications.
The Artificial Intelligence and Distributed Computing Master's Program taught in English aims to offer competences in designing intelligent systems with application in various scientific and technical fields and in using the most recent technologies in high-performance computing and distributed computing. It is a two years program organized in three semesters devoted to teaching and a fourth one focused on research activities and the MSc thesis preparation. The students have the opportunity to use the infrastructure of the High-Performance Computing Lab (http://hpc.uvt.ro), participate in international research projects and to industrial projects conducted in collaboration with IT companies.
This new Master curriculum strongly focuses on Artificial Intelligence, including statistical learning and applications to data science. It also covers the complementary field of advanced Visual Computing, including 3D computer graphics, virtual and augmented reality, multimodal interaction, computer vision, robotics, and 3D Fabrication, which either make use or lead to the development of novel AI methods. This curriculum in Artificial Intelligence and Visual Computing is therefore at the heart of digital sciences and of its most promising, recent applications.
Through this program, students will acquire the scientific and technological knowledge, as well as the practical experience, to understand and contribute to high-level innovative R&D processes in the field of visual computing.
The Master degree in Data Science and Scientific Computing (DSSC) aims to train professionals of the future: experts who are in high demand because of the digitalization of society and the evolution of Industry 4.0.
This program focuses on the education of experts in the field of supercomputing and the use of high-performance computing in solving computationally demanding tasks in applied sciences, as well as technology. It has a unique advantage of its association with the IT4Innovations National Supercomputing Centre, one of Europe’s most powerful supercomputers, located on the University campus. This provides a hands-on opportunity for the practical application of theoretical instruction.
This Master provides a comprehensive set of competencies in Communication Systems: from the physical layer (wireless communications theory and implementation aspects), mobile networking (based on IPV6), to applications (for a smartphone, tablets, etc.). Sophia-Antipolis is considered a major European region for telecommunications research and development in southern France. EURECOM has established over the years a synergy with the local industrial environment on advanced research topics.
The Master of Applied Computing is a course-based professional graduate program offered by the School of Computer Science will provide you with a solid foundation and knowledge of industry-oriented practical aspects of Computer Science, preparing you to take up positions in the growing software industry in Canada and around the world.
Students from the master’s programme in Applied and Computational Mathematics will become skilled applied mathematicians, well-prepared for advanced industrial positions or continued graduate studies. The programme contains four tracks: Computational Mathematics, Financial Mathematics, Optimization and Systems Theory, and Statistical Learning and Data Analytics.
The study plans Discrete Mathematics and Combinatorial Optimization and Mathematical Structures in Computer Science provide advanced knowledge in the fields of applied mathematics and computer science. An emphasis is put on up-to-date theoretical and applied questions in the area. The study plans Optimization and Mathematical Economics provide skills to solve difficult technical and economical problems with the use of optimization methods and suitable methods from mathematical economics.
Make effective eLearning for training in organizations; higher education and middle education.
The creation of this postgraduate program has two main objectives: a) Establish a European standard of excellence in theoretical and computational chemistry which includes knowledge of methods, applications for use and programmability. b) To promote international mobility of students theoretical and computational chemistry both at the level of master and doctoral degrees.
The program provides excellent training in many different areas of applied mathematics related to modelling with partial differential equations, with applications in fluid mechanics, waves propagation, porous media, etc.