Overview

Adaptive Computing in Electric Drives

Learn why adaptive System-on-Modules (SOMs) are the perfect compute platform for next-generation electric drives

Evaluate with the Kria Drives Starter Kit

Experience deterministic motor control and real-time data acquisition using the Kria™ Drives Starter Kit

Develop Using the Vitis Motor Control Library

Leverage pre-built accelerated applications as a starting point and utilize the Vitis™ Motor Control Library, Python, and the MATLAB® Simulink® environment to build power-efficient DSP solutions

Deploy with a Production SOM

The path to production has never been easier—move your validated application to a production-ready Kria K24 SOM with all the needed design resources and online support

Step-by-Step Guide to Get Up and Running

The KD240 Drives Starter Kit delivers a simplified development experience, enabling a quick and easy workflow for embedded SW developers and control system architects to build their applications on adaptive hardware.

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AMD Kria KD240

KD240 Starter Kit for an “Instant-On” Industrial IoT Drives Experience

The KD240 Drives Starter Kit integrates industrial motor control & inverters, communications, and data analytics, and simplifies DSP development with a scalable, power-efficient SOM. Designed for electric drives, the KD240 Starter Kit is the fastest way to develop intelligent factory solutions for production volume deployment with the K24 SOM.

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Deploy with the Kria K24 SOM

The path to production has never been easier. Developers get access to all the design source files of the KD240 carrier card, a custom accelerated application development guide, and a production-ready K24 SOM offered in Commercial and Industrial grades featuring a custom-built Zynq™ UltraScale+™ MPSoC device in a small form factor.

Kria K24 SOM
Deploy with k24

Powering Electric Drive Control & Efficiency with Adaptive Computing eBook

Kria™ adaptive System-on-Module (SOM) devices from AMD play an important role in electric drive control. They can optimize performance, help a motor run more efficiently, reduce power consumption, mitigate noise, cut vibration, and detect potential failures before they happen. Download our new motor control eBook to learn more!

Get the eBook
Improve Electric Drive Control white paper

Develop

MathWorks

Gives users the ability to develop, model, simulate, deploy, and verify designs on AMD FPGAs, SoCs, Zynq™ RFSoCs, and Versal™ devices.

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Vitis Motor Control Library

Open-source library written in C/C++ for accelerating development of motor control applications. The library covers four algorithm-level L1 APIs, including Field Oriented Control, Pulse Width Modulation (PWM), Space Vector PWM, PWM Generator, and Quadrature Encoder Interface.

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Open-source productivity framework built with Python, Jupyter, and a huge ecosystem of associated libraries. Increases the productivity of software and hardware engineers by using the Zynq family of devices to build more capable and intelligent systems.

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Support & Resources

Learn more about the Kria K24 SOM, KD240 Drives Starter Kit, and associated design flows via a white paper, the getting started guide, and community projects.

Kria App Store

Pre-Built Hardware and Software Platform

Accelerated applications enable developers to program and differentiate their designs at the software level, without requiring FPGA programming experience and can be up and running in under 1 hour.

App Store
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