For control applications, an understanding the fundamentals of control theory is required.  These trainings provide a foundation for creating control applications and provide some advanced training on the spate space modelling paradigm.

For control applications, an understanding the fundamentals of control theory is required.  These trainings provide a foundation for creating control applications and provide some advanced training on the spate space modelling paradigm.

For control applications, an understanding the fundamentals of control theory is required.  These trainings provide a foundation for creating control applications and provide some advanced training on the spate space modelling paradigm.

The Control Law Accelerator is a 32-bit floating point math accelerator that is common on most c2000 devices. It aids in the concurrent processing of fast control algorithms.

After viewing the lectures, and working through the provided example, you should be in a better position to migrate existing algorithms from the main C28x core to the CLA, or start programming on the CLA from scratch.

The Control Law Accelerator is a 32-bit floating point math accelerator that is common on most c2000 devices. It aids in the concurrent processing of fast control algorithms.

After viewing the lectures, and working through the provided example, you should be in a better position to migrate existing algorithms from the main C28x core to the CLA, or start programming on the CLA from scratch.

Once you have ported your code over to the CLA and successfully built your executable, it’s time to debug. The CLA pipeline is unprotected and is debugged through the main CPU; you cannot debug code on the CLA in the same manner you would on the C28x. This module goes over the different aspects of setting breakpoints, single stepping and setting up CCS views when debugging the CLA.

The C2000™ Delfino™ MCUs are a line of high-performance solutions that provide more processing capabilities, memory, and peripherals to lower system cost while delivering more efficient control capabilities. These high-performance, floating-point Delfino microcontrollers include an on-chip, high-precision analog-to-digital converter, along with an external low-cost signal conditioning circuit supporting:

Explore training modules to gain an understanding of the core attributes of the Piccolo MCU family.

Explore training modules to gain an understanding of the core attributes of the Delfino MCU family.

This module covers the architecture of the CLA, the resources at its disposal and the division of code into task blocks that are triggered by peripherals or through software. Each of these task blocks are atomic, in the sense that no other task may interrupt a running task. This makes operation of the CLA unconventional in comparison with standard CPUs.

These videos introduce the C2000 TMS320F28004x family of devices.