Kria K24 System-on-Module
by: AMD
New to the Kria™ portfolio, the cost-optimized K24 SOM offers a smaller form factor and power efficiency for a wide range of target applications. Leverage its lower latency and deterministic performance for developing highly reliable end systems. The K24 SOM is available in Commercial and Industrial Grade variants for production deployment.
WARNING: This product may contain chemicals known to the State of California to cause cancer, birth defects, or other reproductive harm. For more information, go to: www.P65Warnings.ca.gov
Overview
Simplifying the Design and Productization of Edge Devices
Power-efficient Compute
- Develop power-efficient and highly deterministic industrial solutions for volume deployment
- Up to 2X latency advantage vs. a standard system on chip like Texas Instruments AM64xx and similar products for single-axis drives applications1
Scalable & Adaptable
- Smaller form factor and connector compatible with K26 SOM—enabling migration
- Future ready for HW and SW changes, offering adaptability for any sensor or interface 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 the App Store as well as featuring support for more development flows, including Python and the MATLAB® Simulink® environment
Key Features
The K24 SOM features an exclusive, custom-built XCK24 SoC based on the Zynq™ UltraScale+™ MPSoC architecture that has been configured for enhanced acceleration of motor control and DSP applications.
| Area | Parameter | K24 |
|---|---|---|
| Form Factor | Dimensions (with thermal enclosure) | 60 mm x 42 mm x 11 mm |
| Processor Unit & Acceleration | Application Processor | Quad-core Arm® Cortex®-A53 MPCore™ at 1.33 GHz |
| Real-Time Processor | Dual-core Arm Cortex-R5F MPCore at 553MHz | |
| Graphics Processing Unit | Arm Mali™-400 MP2 at 600 MHz | |
| Deep Learning Processor Unit (DPU) | INT8 (852 GOPs with B2304 DPU) | |
| Trusted Platform Module (TPM) | Infineon 2.0 | |
| Memory | On-Chip* | 9.4 Mb on-chip SRAM |
| On-SOM | 2 GB, 32-bit LPDDR4 @ 1066 Mbps w/ ECC configuration** and 32 GB eMMC | |
| Connectivity | High-Speed PS Connectivity (GTR) | PCIe® Gen2 x4, 2x USB3.0, SATA 3.1, DisplayPort, 4x tri-mode gigabit Ethernet |
| General PS Connectivity (MIO) | 2x USB 2.0, 2x SD/SDIO, 2x UART, 2x CAN 2.0B, 2x I2C, 2x SPI, 4x 32b GPIO | |
| Transceivers | GTR 6 Gbps Transceivers | 4 |
| I/O Count | PS MIO (1.8V) | 49 |
| PL High-density (HD) I/O (3.3V) | 23 | |
| PL High-performance (HP) I/O (1.8V) | 56 | |
| Programmable Logic | System Logic Cells (K) | 154 |
| DSP Slices | 360 | |
| Power & Thermal | Typical Power | 5W |
| Maximum Power*** | 10W | |
| Thermal Interface | Passive (clamshell thermal plates) | |
| Speed and Temp Grade | Commercial | -2 speed grade, low voltage and 0 to 85°C temperature range |
| Industrial | -2 speed grade, low voltage and –40 to 100°C temperature range |
*On-chip memory (Mb) = max. distributed RAM + total block RAM + UltraRAM
**K24 I-grade only supports ECC memory
***Estimated and subject to change based on actual hardware evaluation
Default
Default
Title
Document Type
Date
| KD240 Drives Starter Kit | K24 Commercial SOM | K24 Industrial SOM | |
|---|---|---|---|
| Product Type | Development/evaluation use only | Fully qualified and certified Commercial grade production module | Fully qualified and certified Industrial grade production module |
| Operating Temp Range | 0°C to 35°C (room temp.) | 0°C to 85°C | –40°C to 100°C |
| ECC Memory Support | No | No | Yes |
| Target Use | Develop and prototype target applications; run pre-built accelerated applications and connect to sensors/peripherals | Plugs into a carrier card designed for specific target application, such as motor control, robotics, industrial sensors, aerial systems, and medical devices | |
| Warranty | - | 2 years | 3 years |
| Operating Lifetime | - | 5 years | 10 years |
| Price | $399 | $250 | $350 |
Kria™ K24 Carrier Card Design Resources
| File Name | Description | File Type |
|---|---|---|
| xtp777-kria-k24-3d-cad-model | Kria K24 SOM 3D CAD model | ZIP |
| Kria K24 SOM XDC | Kria K24 SOM XDC file | ZIP |
| Kria K24 SOM Trace Delay | Kria K24 SOM trace delay file that helps with designing custom carrier card | ZIP |
| Kria K24 and K26 SOM Footprint Compatibility CAD file | Footprint dimensions of the Kria K26 and K24 SOMs mapped onto a common carrier card design—for users leveraging a K26-based carrier card design for the K24 SOM (use this as reference only as details are preliminary but feature high confidence) |
ZIP |
| Kria K24 SOM thermal model | ZIP | |
| xtp748-kria-som-schematic-review-checklist.zip | Kria K24 SOM schematic review checklist | ZIP |
| Kria K24 SOM developer wiki | N/A | |
| Obtainable directly from Vivado™ Board Store https://github.com/Xilinx/XilinxBoardStore/wiki/Xilinx-Board-Store-Home |
Kria K24 SOM Vivado board files | N/A |
Kria™ KD240 Carrier Card Design Resources
| File Name | Description | File Type |
|---|---|---|
| xtp772-kd240-schematic.zip | Kria™ KD240 Starter Kit carrier card schematic | ZIP |
| xtp774-kria-kd240-carrier-card-schematic-source.zip | Kria KD240 Starter Kit carrier card schematic source | ZIP |
| xtp775-kd240-allegro-board-source.zip | Kria KD240 Starter Kit carrier card layout | ZIP |
| xtp776-kria-kd240-carrier-card-bom.zip | Kria KD240 Starter Kit carrier card BOM | ZIP |
STARTER KIT
KD240 Drives Starter Kit
Available Now
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.
ADAPTIVE COMPUTING IN ELECTRIC DRIVES
Powering Electric Drive Control & Efficiency with Adaptive Computing
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!
webinar
Want to learn more? Register for the October 10th webinar to realize a more power-efficient future with the new, scalable Kria K24 SOM.
Questions?
Ask our community of experts and superusers. Post your questions, find answers, and share your expertise with other developers on the Kria SOMs Forum.
- 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)