Certified Embedded C EG7510

In this second part of a seminar, Prof Michael J. Pont talks about the challenges of full ET multi-tasking designs and time-triggered hybrid schedulers. He also comments on working with multiple processors (distributed systems).

Prof Michael J. Pont talks about the challenges of full ET multi-tasking designs and time-triggered hybrid schedulers. He also comments on working with multiple processors (distributed systems).

In this second part of a seminar, Prof Michael J. Pont gives an introduction to the 32-bit MCU world. He talks about timing analysis in RT embedded systems, multi-task TTC scheduler and debugging with JTAG. He also considers two further widely used platforms: the x86 architecture and the field-programmable gate array.

Prof Michael J. Pont gives an introduction to the 32-bit MCU world. He talks about timing analysis in RT embedded systems, multi-task TTC scheduler and debugging with JTAG. He also considers two further widely used platforms: the x86 architecture and the field-programmable gate array.

In this second part of a seminar, Prof Michael J. Pont talks about simple embedded operating systems and multi-state systems. He explains how to execute sequences of functions and how to deal with "long tasks" in reliable embedded systems. He also introduces MISRA C.

Prof Michael J. Pont talks about simple embedded operating systems and multi-state systems. He also explains how to execute sequences of functions and how to deal with "long tasks" in reliable embedded systems.

In this second part of a seminar, Prof Michael J. Pont explains basic concepts related to embedded systems. He talks about switches and how to use the C programming language to create embedded systems.

Prof Michael J. Pont explains basic concepts related to embedded systems. He talks about how to use the C programming language to create embedded systems which have predictable behaviours and can be used as a basis of reliable applications.