Scale your edge design with production deployment
The AMD Kria™ K24 SOM features a cost-optimized, custom-built Zynq™ UltraScale+™ MPSoC device suitable for many workloads.
Power-efficient Compute
- Develop power-efficient and highly deterministic industrial solutions for volume deployment.
- 2X latency advantage vs. a standard system on chip like Texas Instruments AM64xx and similar products for single-axis drives applications.1
Scalable & Adaptable
- Smaller form factor and connector compatible with the Kria K26 SOM-enabling migration.
- Future ready for HW and SW changes, offering adaptability for various sensors or interfaces as standards evolve.
Easy Signal Processing
- Pre-built HW acceleration with Vitis™ motor control libraries.
- Out-of-the-box ready with KD240 Drives Starter Kits and Kria App Store, and support for more development flows, including Python and the MATLAB® Simulink® environment.
Accelerate Innovation at the Edge — Meet the Newest Addition to the AMD Kria SOM Portfolio
Learn more about the newest addition to the AMD Kria SOM portfolio. The Kria K24 SOM delivers compute performance and resource density—all in a small form factor about half the size of a credit card. The cost-optimized Kria K24 SOM, custom-built on a Zynq UltraScale+ MPSoC, provides an adaptable foundation and is part of the scalable Kria portfolio, giving system architects enhanced flexibility.
Unleashing Power-Efficient Edge Applications
Go to Market Fast with Power-Saving Systems
Learn how AMD Kria K24 SOMs enable embedded system architects to build reliable, compute- and power-efficient edge solutions, deploy flexible and scalable adaptive systems, and move seamlessly to volume deployment.
Kria K24 SOMs
Scale your edge design with production deployment
The newest addition to the Kria SOM portfolio, the Kria K24 SOM features a cost-optimized, custom-built Zynq UltraScale+ MPSoC device. About half the size of a credit card, the K24 SOM targets customers seeking the right power, cost, and performance for DSP-based applications such as industrial motor control, medical equipment, sensor fusion, multi-axis robots for factory automation, and more.
KD240 Drives Starter Kit
The KD240 Drives Starter Kit is an out-of-the-box ready development platform for motor control and DSP applications. Embedded SW developers without FPGA expertise can easily get started by running accelerated applications and leverage multiple development flows, including Python, the MATLAB® Simulink® environment, and more.
$399.00 MSRP
Out-of-the-Box Ready Development Platform for Motor Control and DSP-intensive Applications
Adaptive Computing in Electric Drives eBook
Powering Electric Drive Control & Efficiency with Adaptive Computing
Optimize performance, run motors 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!
Develop Hardware at the Software Level
Accelerated applications enable developers to program their designs at the software level, without requiring FPGA programming experience.
Paired with the KD240 Drives Starter Kit, production-ready accelerated applications can be up and running in under 1 hour, allowing developers to focus on differentiation and shortening the runway to volume deployment.
脚注
- Based on AMD internal analysis in August 2023, using the latency results reported by TI for a full control loop implementation on a Texas Instruments AM64xx standard SOC using a Texas Instruments benchmark vs. the latency results of a full control loop implementation using a Field Oriented Control algorithm designed by Qdesys. System configuration for the TI AM64xx SOC system: TMDS64EVM board; configuration for the Kria K24 SOM system: KD240 starter kit. The latency advantage improves up to 7x as the number of motor axes increases. Actual results will vary. (SOM-003)