A master’s is an advanced degree you can pursue after completing undergraduate study. Be prepared to spend two years on classroom work and research in your chosen field of study. Completion of this degree shows mastery of a specific field.
What is a Master in Computer Engineering? It tends to combine electrical engineering and computer science and use these combined disciplines to develop new computer systems. You may learn how to develop new computer components or improve existing designs. You may understand how to design and create laptops and information networks, reconstruct genomes or design robots. Courses may include parallel computer architecture, introduction to embedded systems, cybersecurity, advanced coding theory or software systems design.
With a master’s degree in computer engineering, you can have advanced computer skills, which are always helpful in a digitized world. The development of skills such as attention to detail and project planning can help you advance in any career.
Many schools vary in cost depending on the length of the program and the location. Find out more information about specific costs by contacting the admissions office of the school of your choice.
Computer engineering degrees open the doors to a variety of careers. You may help develop new computer games or create better business applications. You might even be involved in the design of a new computer operating system. Some industries that you might find yourself eligible for include telecommunications, manufacturing, product development, robotics, health care or technology. A couple of computer engineer careers on the rise are network and computer systems administrators, computer network support specialists and software developers.
Today, you can study from just about anywhere. You can choose a traditional classroom setting or study online. To get started on your 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.
Website Engineering encompasses much more than what is usually associated with "web page development". It is above any technological fashion and it is a fundamental paradigm in current computing, a conceptual framework for the development and exploitation of applications and computer resources. This mastery, with constantly updated content, prepares you to be able to monetize any business online. [+]
Want to be a cloud engineer that can do it all? Learn to deploy, manage, and operate scalable, highly available, and fault tolerant systems across the three cloud platforms today - Amazon web services (AWS), Microsoft Azure, and Google Cloud Platform. [+]
Want to be a cloud engineer that can do it all? Learn to deploy, manage, and operate scalable, highly available, and fault tolerant systems across the three cloud platforms today - Amazon web services (AWS), Microsoft Azure, and Google Cloud Platform. The Cloud Engineer program helps you develop the key skills necessary to become a Cloud platform expert.You will gain in-depth knowledge of computing, network, storage, database, and application services across the three major cloud platform providers—Amazon Web services (AWS), Microsoft Azure, and Google Cloud Platform. Cloud engineer is the logical step in cloud computing before an aspirant moves on to become a cloud architect. The Cloud Engineer program will help you learn to develop and manage the required services on the cloud setup per the architecture created/proposed by the solutions architect. You will gain hands-on knowledge of services such as: Amazon Web Services (AWS): Elastic Compute Cloud (EC2) VMs, Amazon Lightsail, EC2 Container Service (ECS), EC2 Container Registry, AWS Batch, RDS, Glacier, Snowball, CloudFront, DynamoDB, Redshift, Auto Scaling, CloudWatch, ElastiCache, Elastic MapReduce(EMR), CloudTrail, Cloud Search and Security Microsoft Azure: Azure container service, Azure VM, file storage, blob storage, table storage, CDN, ExpressRoute, SQL database, Azure AD, PowerShell, HDInsight, Azure Batch, Azure autoscaling, Azure DNS, Traffic Manager, SQL data warehouse, Azure search, Azure portal/Azure monitor Google Cloud Platform: Google compute engine, Google container engine (GKE), Google Cloud load balancing, Google Cloud DNS, Google Cloud Storage, ZFS, Avere, Google Cloud SQL, Google Cloud Dataproc, Stackdriver Monitoring, Google Cloud Deployment Manager The... [-]
Do you want to be the master of DevOps in a modern development organization? The Simplilearn DevOps Engineer Program not only gets you the technical depth of the DevOps ecosystem but also does this with an agile organization in mind.[+]
Do you want to be the master of DevOps in a modern development organization? The Simplilearn DevOps Engineer Program not only gets you the technical depth of the DevOps ecosystem but also does this with an agile organization in mind. The DevOps Engineer Program helps you develop the key skills necessary to become a DevOps Expert. You will master Configuration Management, Continuous Integration and Continuous Deployment, Continuous Delivery, Continuous Monitoring using DevOps tools such as Git, Docker, Chef, Jenkins, Puppet, and Nagios in a practical, hands-on, and interactive approach, and you will enhance your understanding of the fundamentals of Agile and Scrum methodologies. You will also gain knowledge of the three major cloud platforms providers— Amazon Web Services (AWS), Microsoft Azure, and Google Cloud Platform. The program is built around a structured learning path recommended by industry experts.You will get access to 70+ live instructor-led online classes conducted by trainers who are experts in the field. You also get access to 40+ hours of high-quality e-Learning, real-life case studies, chapter-end quizzes, simulation exams, and a community moderated by experts. Upon completing the requirements of the learning path successfully, you will be awarded the masters certificate from Simplilearn.... [-]
The URV-UOC online Master's Degree in Computer Engineering and Mathematics (ECiM) offers interdisciplinary training in the areas of engineering and applied sciences. The ECiM programme includes cutting-edge topics such as computer modelling and simulation, numerical methods, parallel and distributed computing, knowledge representation, networks and graphs, and applied optimisation. The aim of the degree is to prepare students for... [+]