ac6-training, un département d'Ac6 SAS
 
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Real-Time

Programmation et conception temps réel

Creating systems that work in real-time is a specific challenge. That's why ac6-training provides a range of courses to explain you all the specific techniques and tools to use in this context.

You can see detailed course descriptions of the various trainings by using the above navigation bar. You can also click on course identifiers in the following course briefs hereafter.

Main Courses

Electronics Control Units used in Automotive systems are more and more powerful and are now using multicore processors, causing specific problems to integrate applications that may not have been designed with multicore in mind. This training helps you master mutitask and real-time programming of multi-core processors in the Automotive sector, understanding how to effectively solve problems using the primitives provided by the underlying Operating System.
Real-time and embedded code, especially targetting multicore processors, cannot be effectively tested; it must be validated before coding. This training help you master mutitask and real-time programming of multi-core processors, understanding how to effectively solve problems using the primitives provided by the underlying Operating System.
Throughout this course, you will explore the Zephyr ecosystem, including its build system and West tool. You’ll learn to configure Zephyr using Device Tree and Kconfig, write custom modules, and customize drivers with custom device tree nodes and properties. The course will cover essential subsystems such as GPIOs, I2C, and power management. Additionally, you'll delve into memory management and analysis, user mode, and various OS services. Topics include thread management, mutual exclusion and synchronization primitives, data passing (including mailboxes and Zbus), and interrupt management. These concepts are essential for developing reliable and efficient embedded systems using Zephyr.

Additional Courses

Embedded systems are more and more critical and subject to safety constraints. This training introduces the main concepts and standards applicable to safety-critical systems.
Embedded systems are increasingly complex and therefore can no more be directly designed using existing schemes. One need to first create a detailed architecture to control and plan their development and integration appropriately. This course will help address these phases efficiently and avoid common pitfalls; it will explain you why Software Architecture is needed and how architecture processes can be implemented in an enterprise environment.
This course presents the various solutions for a real-time Linux and the tools to measure real-time performances
This course introduce the IoT ecosystem, describe the most used IoT Edge to Cloud Protocols (MQTT, MQTT-SN and CoAP), explore particularly heinous IoT focused attacks and security provisions at each level of stack (physical devices, communication systems and networks) . This course explains how to configure the LwIP (with MQTT), FreeRTOS and MbedTLS for a microcontroller-based IoT application; it requires previous knowledge of FreeRTOS.
This course describes the Texas Instruments ARM Cortex M4F implementation and TI-RTOS real-time programming