Pay your tuition in advance through self-payment or with the help of your employer.
Numerous employers provide financial assistance for coding programs, so it is advisable to inquire with your employer regarding tuition support.
Welcome to one of the industry's most in-demand professions, strategically crafted to position you at the forefront of this critical field in today's technology landscape. Embedded systems are integral to the operation and innovation of various high-tech industries, including automotive, aerospace, consumer electronics, and healthcare devices. These systems ensure that everyday and specialized devices perform reliably and efficiently in real time.
This Real-time Embedded Linux program educates you on the foundational principles of embedded systems and immerses you in the practical aspects of real-time software development and system optimization. You will gain hands-on experience with microcontroller programming, real-time operating systems (RTOS), and the implementation of complex real-time algorithms.
By engaging with our curriculum, you will develop the skills necessary to design, test, and implement embedded systems that meet the rigorous demands of modern technology. This course is your pathway to becoming a skilled professional in the embedded systems field, equipping you with the knowledge and tools to innovate and excel in the tech industry.
Benny Cohen
Real Time Group Founder and CEO
The Real Time Embedded Linux Course program is made up of a number of courses (modules).
We know that each of us arrives with a different background and level of knowledge. In order to tailor the content to best fit your needs, you can choose the track that is most suitable for you:
Real Time Embedded Linux Course studies at the college are currently conducted online.
This track includes all the courses in the program and is designed to make you an expert in the field.
This track includes only the courses and content specifically designed for the Real Time Embedded Linux Course program.
This track allows you to select only the specific courses and content that you are interested in and wish to complete.
Embedded Linux | |||||
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Linux Fundamentals | 75 academic hours | Comprehensive Track | |||
This comprehensive and practical course includes learning the fundamentals of the open-source Linux operating system, widely used in various industries and purposes. Linux supports various hardware devices and numerous I/O interfaces, offering efficiency, stability, flexibility, and security. Linux can be found nearly everywhere: on servers, personal computers, embedded systems (Embedded Linux), smartphones, tablets, and more. | |||||
Bash Scripting | 25 academic hours | Comprehensive Track | |||
Bash is a highly convenient and efficient shell (command line interface) environment. Developed by GNU contributors, it is essentially the default shell in Linux/GNU systems, serving as a vital foundation for the system. Like any shell, it encompasses a robust command system as well as an efficient scripting language.
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Python | 90 academic hours | Comprehensive Track | |||
The focus is on Python 3, aiming to provide the knowledge and experience required for programming real-world applications in an object-oriented industry. You will learn how to develop software using Python. You will be taught techniques and appropriate tools to professionally develop high-level Python programs suitable for high-tech companies. This is a very practical course in which we will also be using circuit boards. Python is currently considered one of the most popular and sought-after programming languages in the IT industry. Its popularity and widespread use in various industry projects make Python one of the most demanded programming courses. The high demand and diverse employment opportunities make Python highly beneficial to specialize in for a rewarding professional career with multiple growth opportunities. | |||||
RT Concepts | 40 academic hours | Comprehensive Track | Standard Track | ||
Real time systems are deterministic and consistent systems (not necessarily embedded computers) that are committed to processing information and providing responses within a deterministic and consistent timeframe. The course covers the main components involved in the development of embedded computer applications. Additionally, it addresses challenges faced by development engineers, the process, and tools used in embedded application development. It also delves into the objects and services provided by a real-time operating system and how they are integrated into the application. | |||||
Embedded Linux | 90 academic hours | Comprehensive Track | Standard Track | ||
This course aims to provide engineers in the industry with the necessary knowledge to tackle the challenges of developing embedded computer systems using the Embedded Linux platform. The course includes all the training and development conducted on development boards. Among other things, students will become familiar with the stages of development, required tools, typical issues in the development process and their solutions, use of various debugging tools, development of user-mode applications. | |||||
Embedded Systems | |||||
C | 90 academic hours | Comprehensive Track | Standard Track | ||
The C language course serves as a comprehensive and practical guide to software development. It provides the knowledge, techniques, and tools necessary to enable professional-level development of complex programs in the C language across various domains in the tech industry. | |||||
ARM — Embedded systems | 90 academic hours | Comprehensive Track | Standard Track | ||
ARM (Advanced RISC Machines) is a type of architecture used in embedded systems and microprocessors. It is a family of instruction set architectures and processor cores that are designed for efficient and low-power processing in various applications, including embedded systems, mobile devices, microcontrollers, and more. Throughout this course, participants will cover techniques, development tools, work environment, debugging, typical issues in Embedded Systems development, and their solutions. | |||||
Networking | 40 academic hours | Comprehensive Track | |||
Computer networking at the CCNA level: This course provides extensive knowledge in both theoretical and practical aspects of installation, maintenance, configuration, understanding of routers and switches, operation, network troubleshooting, and familiarity with computer networking protocols at the CCNA level. You will become familiar with the fundamental concepts and devices in networking, aspects and layers of LANs/WANs and the structure and functioning of architectures and protocols used in IP networks. | |||||
C++ | 90 academic hours | Comprehensive Track | |||
This course will cover Object-Oriented Programming using the C++ language, emphasizing polymorphism, multiple inheritance, exceptions, and multithreading. |
Students must complete the following to be eligible for Real Time Embedded Linux certification:
Pay your tuition in advance through self-payment or with the help of your employer.
Numerous employers provide financial assistance for coding programs, so it is advisable to inquire with your employer regarding tuition support.
Some students turn to personal loans to fund their coding education.
A diverse range of personal lending choices is at your disposal for careful consideration and assessment. Should you opt for a personal loan, be sure to select the one that aligns most effectively with your individual circumstances and financial goals.
Your eligibility for various government aid and scholarship programs may vary depending on your location.
As such, it is recommended that you explore the options and inquire about any scholarships or financial aid opportunities available.
After completing the Real Time Embedded Linux program, participants can potentially integrate into various companies and roles within the technology industry.
Some potential options include positions as Real Time Embedded Software Engineers, Firmware Developers, Embedded Systems Engineers, IoT Developers, and positions related to real-time systems and software development.
Companies in industries such as automotive, telecommunications, consumer electronics, medical devices, and more often seek professionals with expertise in Real Time Embedded development.
The training program for Embedded Systems development places a strong emphasis on practical work and gaining experience in development. Throughout the training program, there will be homework assignments, exercises, and projects aimed at building a portfolio in order to accumulate the necessary experience for working in the field upon completing the studies.
The admission requirements for the Real Time Embedded Linux program are as follows:
1. Basic computer skills.
2. Some experience in C programming — an advantage, but not mandatory.
3. Background and/or experience in programming languages is an advantage.
4. Professional knowledge interview.
Currently, all classes in the Real Time Embedded Linux program take place online.