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73 Results

Rapid prototyping conclusions

Conclusion of rapid prototyping with call to action examples, simple and complex demonstrations.
Rapid prototyping training series

Rapid prototyping: Getting started with TI solutions

How many times have you said, “I would like to prototype an idea with TI silicon but I can not get software resources" or “I don’t know how to prototype/program.”

This training shows you how to get started prototyping on TI solutions with minimal or no programming, including the following tasks:

KeyStone Architecture

This section provides an introduction to the functional architecture of the C66x DSP + ARM embedded processors, as well as the DSP and ARM cores and the Instruction Set Architecture (ISA).

KeyStone Memory and Transport

This section provides information about the memory and transport architectures of the C66x DSP + ARM embedded processors.

KeyStone External Interfaces

This section provides training on the external interfaces of the C66x DSP + ARM embedded processors.

KeyStone Wireless Accelerators and Co-Processors

This section provides an overview of the wireless accelerators and co-processors on C66x DSP + ARM embedded processors.

KeyStone Software and Tools

This section introduces various software and tools on C66x DSP + ARM embedded processors.

KeyStone Demonstrations

This section includes demonstrations for software and hardware processes performed on KeyStone devices.

Processor SDK for TI Embedded Processors

This section provides an overview of the Processor SDK for Linux and RTOS for use on TI embedded processors.

Processor SDK for AM57x Sitara Processors

TI provides key runtime software components and documentation to further ease development. TI’s online training provides an introduction to the Processor SDK and how to use this software to start building applications on TI processors.

PRU for Sitara Processors

The Programmable Real-Time Unit (PRU) is a small processor that is tightly integrated with an IO subsystem, offering low-latency control of IO pins on TI’s SoC devices including the AM335x, AM437x, and AM57x Sitara Processors. The PRU is customer-programmable and can be used to implement simple and flexible control functions, peripherals, and state machines that directly access IO pins of the device, as well as can communicate with the application cores. TI's online training for PRU provides an introduction to development and debugging.

Introduction to OpenCL

These videos provide an to OpenCL support on Sitara and KeyStone embedded processors.

66AK2Gx Processors

The 66AK2Gx DSP + ARM processors are designed for automotive and consumer audio, industrial motor control, smart-grid protection and other high-reliability, real-time, compute-intensive applications. This training provides an overview of the device architecture and the processor cores. It also includes training related to voice and audio processing, as well as additional how-to video topics relevant to the EVMK2G evaluation module.

Processor SDK for KeyStone Processors

TI provides key runtime software components and documentation to further ease development. TI’s online training provides an introduction to the Processor SDK and how to use this software to start building applications on TI processors.

PRU for 66AK2Gx Processors

The Programmable Real-Time Unit (PRU) is a small processor that is tightly integrated with an IO subsystem, offering low-latency control of IO pins on TI’s SoC devices including the 66AK2Gx, AM335x, AM437x, and AM57x Processors. The PRU is customer-programmable and can be used to implement simple and flexible control functions, peripherals, and state machines that directly access IO pins of the device, as well as can communicate with the application cores.

AM4x Sitara Processors

The AM4x Sitara processors provide scalable ARM Cortex‐A9 solutions for automation, HMI, vision, imaging, and other industrial and high‐performance applications. This online training series includes an introduction to the AM4x processor family and the industrial .application support provided for devices in this class.

Introduction

This section covers wireless network trends, key technologies, and problem statements for smart grid IoT. 

6LoWPAN-based Wireless Network Protocols

This section covers system-level deep dive on key wireless network protocols of 6LoWPAN, RPL, and CoAP for smart grid IoT. 

System-Level Examples for Wireless Networks on Smart Grid IoT

This section covers system-level examples for wireless networks on smart grid IoT. We will provide software- and system-level details for two system examples: 6LoWPAN-Contiki and sub-1GHz sensor to cloud industrial IoT gateway reference design. 

Summary

This section summarizes the wireless network challenges and solutions for a smarter grid IoT training series. 

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