Developing multi-tasking embedded applications in C using the FreeRTOS operating system
Course
Inhouse
Description
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Type
Course
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Methodology
Inhouse
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Duration
5 Days
This course helps attendees to develop an understanding of multi-tasking programming patterns and strategies for inter-process communication both in general terms and also specifically using the FreeRTOS API. In addition attendees will also master the techniques for implementing device drivers and integrating them into the FreeRTOS framework will also be covered. Suitable for: Attendees should have a knowledge of embedded C programming and a good working knowledge of multi-tasking concepts
Reviews
Course programme
This is a 5 day hands on programming course for experienced C programmers. The course will use the IAR embedded workbench IDE and cover the concepts underlying the use of pre-emptive multi-tasking operating systems, the advantages and disadvantages of this approach, the need for careful and thoughtful design. It will cover the standard patterns and issues associated with this paradigm such as pipes and circular buffers, producer - consumer patterns, reader - writer patterns,workcrew patterns, deadlock, livelock and priority-inversion. In addition the fundamentals of topics such as interrupt handling, device driver development, and deployment, configuration and linker scripts, tuning and debugging will be surveyed. The target platforms will be ARM Cortex M3 / ARM 7 platforms.
Note: the course can be taught using other target platform supported by FreeRTOS and the IAR Embedded Workbench if required
This is a taught course with labs, with a split of about 40% teaching and 60% labs.
Course Benefits
This course helps attendees to develop an understanding of multi-tasking programming patterns and strategies for inter-process communication both in general terms and also specifically using the FreeRTOS API. In addition attendees will also master the techniques for implementing device drivers and integrating them into the FreeRTOS framework will also be covered.
Course Contents
Overview of approaches to multi-tasking in embedded systems
- Principles underlying per-emptive multi-tasking operating systems
- The role of device drivers and interrupt handling in pre-emptive multitasking operating systems
- Layered handling of interrupts
- Soft vs. hard real-time
- Overview of schedulers and scheduling strategies
- task management and the task state-machine
- resource management and control
- overview of the FreeRTOS Kernel structure
- kernel services and task scheduling
- understanding the FreeRTOS initialisation process
- timers and timer interrupts
- Context switching and its implications
- Designing and implementing simple multi-tasking applications
- Semaphores and their uses
- implementing the simple producer - consumer pattern
- the concept of a critical section
- pipes as an inter-process communication mechanism and inter-process signaling using event flags
- readers and writers patterns
- task communication via messages and message queues
- combining message queues with State Machines - "Active Objects"
- hardware specific interrupt handling issues
- layered interrupt handling - patterns and strategies
- uses of delaying tasks by having them sleep for a specified amounts of time
- monitoring task performance and profiling
- real time clocks and time stamps
- watchdog timers
- basic concepts and strategies
- nested interrupts
- interrupt masking
- deadlock
- livelock
- priority inversion
- importance
- general principles and strategies
- hardware specific issues ( tailored to particular micro-controllers )
- collecting and monitoring kernel statistics
- estimating and calculating memory requirements
- memory management schemes
- estimating, measuring and documenting interrupt latency times, response times and recovery times
Developing multi-tasking embedded applications in C using the FreeRTOS operating system