Description

In a very real sense, embedded software is what makes our everyday world function. From self-driving cars to chemical processing plant equipment, and from medical devices to the electric grid, embedded software is everywhere. In this course, students will examine the key properties of software systems in the embedded, resource constrained, mobile and networked world. We will assess the applicability of mainstream software engineering methods and techniques (e.g., software design, component-based development, software architecture, system integration and test) to this domain.

Program

Software Engineering bachelor`s degree Program

Objectives

• Demonstrate knowledge and understanding of Embedded software engineering concepts.
  The principles of good architecture for an embedded system.
  Design practices to help make your embedded project successful.
  Details on principles that are often a part of embedded systems, including digital signal processing, safety-critical principles, and development processes.
  Techniques for setting up a performance engineering strategy for your embedded system software.
  How to develop user interfaces for embedded systems.
  Strategies for testing and deploying your embedded system, and ensuring quality development processes.
  Practical techniques for optimizing embedded software for performance, memory, and power.
  Advanced guidelines for developing multicore software for embedded systems.
  Demonstrate Hands-on practice at applying concepts.
  Learn how to think about embedded systems.