Get to know the companies that are a part of NVIDIA’s ecosystem to find the latest products and services compatible with the Jetson Embedded Platform. This includes companies specializing in peripherals (cameras, etc.), software, design and production services, and more.
The A176 Cyclone is a GPGPU Fanless Small FF RediBuilt™ Supercomputer, with a Jetson TX1 Module. It is the smallest and most powerful Rugged-GPGPU, ideally suited for distributed systems. With its compact size and remarkable level of energy efficiency, it is the most advanced solution for video and signal processing for the next generation of autonomous vehicles, surveillance and targeting systems, EW systems, and many other applications.
The C535 Typhoon is a GPGPU 3U VPX Supercomputer Board, ideally suited to add revolutionary GPGPU supercomputer capabilities to any 3U VPX system. It combines CPU and GPGPU on a single board, using the NVIDIA Jetson TX1 Module, opening up new possibilities with enhanced video & signal processing capabilities for next-generation autonomous vehicles, avionics and flight systems, surveillance and targeting systems, EW systems, and many other applications.
Based on the NVIDIA Tegra K1 system-on-chip (SoC), Abaco Systems' mCOM10-K1 Mini COM Express module delivers 326 GFLOPS of performance in a 10 Watt budget, well beyond the performance typically associated with COM Express, to SWaP-constrained environments.
is an industrial R&D company which combines latest software and hardware technologies to create advanced products for its customers. Antmicro helps customers build tailored products with the Jetson Embedded Platform and helps deliver successful projects in shorter time. They offer hardware development for custom, small form-factor electronics with specialized I/Os, along with software development. Antmicro has the complex development expertise needed for BSPs, camera drivers, middleware, applications, GPGPU processing with CUDA, and Deep Learning and vision algorithms.
The J100 carrier has the same form factor and size as the Jetson TX1 compute module. It is plugged in below the TX1 and brings out many interfaces on connectors. Furthermore in can be plugged in a specifically designed modular motherboard to bring out more interfaces and to integrate it with other components for UAV applications.
The J120 carrier board turns the Jetson TX1 compute module into a super-mini-computer for desktop usage and for integration into UAVs and drones.
The J130 carrier board turns the Jetson TX1 compute module into powerful video processing system with one 2160p30 (4k x 2k) and one 1080p60 video input.The size has been slightly enlarged compared to the J120 to make room for the extra functions.
J200 dual TX1 carrier board brings out many interfaces on connectors. Furthermore in can be plugged in a specifically designed modular motherboard to bring out more interfaces and to integrate it with other components for UAV applications.
CM313B is a Mini PCIe HW encode video capture card for use with Jetson Embedded Platform. It supports one single 3G-SDI input for applications requiring HD 1080p video. CM313B also offers uncompressed H.264 digital video signal transmission, including embedded audio, and supports input resolution up to 1920x1080 60fps.
C353 is a Mini PCIe video capture card based on H.264 hardware compression. It supports Full HD video capture with low CPU consumption for the Jetson Embedded Platform. C353 can ingest and capture HDMI and VGA input sources for monitoring, archiving or analyzing HD video content.
C351 is a Mini PCIe video capture card used with Jetson Embedded Platform to preserve up to four channels of SD video inputs simultaneously. The exclusive hardware design of C351 can guarantee fast response and robust performance for high-density SD video capture and encoding needs.
C039P is a USB video capture device with both S-Video and composite inputs. It can be used with Jetson Embedded Platform to capture true color video sources and images from analog video equipment. Its portability also makes it the best solution for mobile applications, such as mobile monitoring and vision analysis.
The Meerkat Tegra K1 processor-module is tailored for embedded, industrial and avionic applications. As a result of the long-standing partnership with NVIDIA, Avionic Design are closing the gap between mobile and embedded technology.
At only 2″ x 2.3″, the TK1-SOM is designed to give you the freedom to use the NVIDIA Tegra K1 SoC for any application you want. From deeply embedded applications like rear obstacle collision avoidance systems, Advanced Driver Assist Systems (ADAS), medical devices, traffic monitoring, and security systems to less rugged applications like facial recognition stations, UAV, and Quadcopters, the TK1-SOM has the computing power to handle demanding applications. The TK1-SOM is rich in I/O. Dual CSI-2, USB 2.0, USB 3.0, Ethernet, and GPIO are all available to integrate with your favorite sensor. We even have pre-integrated options for EO, Active IR, Passive IR, 24 GHz Radar, 60 GHz Radar, 77 GHz Radar, 4G LTE, WiFi, Bluetooth®, CANBus, MIL-STD 1553, and many other sensors.
The TX1-SOM Carrier Card is CEI's latest addition to its Tegra-based products and is designed to support NVIDIA Jetson TX1 (integrated Maxwell GPU cores). The carrier card is only 2" x 3.5" features I/O including 6x CSI-2 ports, HDMI 2.0, Micro SD Slot, SATA 2.0, USB 3.0, USB 2.0, 1Gb Ethernet, x1 and x4 PCIe Gen 2, 2x UART, 2x SPI, 3x 12C, and an onboard IMU. Auto power up is not an issue since the carrier card has auto power up built in!
The AG A1x/m1d is a Full-size or Mid-size AdvancedMC™ processor module supporting up to four NVIDIA® Tegra® K1 processors. Typical applications for this type of embedded supercomputer include wireless test equipment, radar, image processing, decryption and other security related tasks.
Astro is specifically designed to work with the NVIDIA® Jetson™ TX1 supercomputer-on-module. The Astro Carrier provides access to features found on the Jetson TX1 module in an extremely small footprint (87mm x 57mm/3.43" x 2.24"). It makes use of a unique high density, board-to-board connector that allows for IO breakout with Connect Tech’s off the shelf or custom designed IO break out boards.
Connect Tech's Rosie is a small form factor, rugged embedded system based on the NVIDIA® Jetson™ TX1. Housed in a rugged compact enclosure with optional mounting brackets, Rosie features revolutionary NVIDIA Maxwell™ architecture with 256 CUDA cores delivering over 1 TeraFLOPs of performance with a 64-bit ARM A57 CPU. Rosie’s rugged system also provides USB, HDMI, Gigabit Ethernet, GMSL Video Inputs, WiFi, and Bluetooth capabilities all with IP68 rated ingress protection. Custom face plates are easily accommodated using Connect Tech design services. Rosie is designed to operate in MIL-STD 810G and DO-160G harsh environments.
Connect Tech's Elroy Carrier for NVIDIA® Jetson™ TX1 brings a low cost deployable Jetson™ TX1 Solution to the market. Designed to match the NVIDIA® Jetson™ TX1 module form factor, the Elroy’s design includes Dual MIPI CSI-2 Video Inputs, Mini-PCIe/mSATA expansion, HDMI Video, USB 3.0 and 2.0, and two Serial Ports for RS-232/485. All of this is designed for use in a small form factor rugged environment. With locking pin-header connectors, solder in standoffs, and industrial temperature range components, the Elroy is going places.
eSOMTK1 is a computer on module for high-end image analytics, Deep Learning and Virtual/Augmented reality applications. The eSOMTK1 exposes the complete range of interfaces provided by the Tegra K1 processor through its connectors, so that the customers can get the complete functionality without going through the complex design requirements of the processor sub system including memory and power manager. eSOMTK1 has three camera interfaces provided with one 1-lane MIPI CSI-2 and two 4-lane MIPI CSI-2. TK1 SOM comes in a compact form factor with various configurations and OS support enabling customers to focus on their application design.
Propus development kit serves customers ready to begin custom product design with the eSOMTK1 Tegra K1 SoM. It includes a carrier board that exposes all three MIPI camera interfaces and supports peripherals including camera boards with driver support. The Propus carrier board enables algorithm and software development out of the box, but can also be customized (e.g., add/remove interfaces) to meet final product requirements.
e-CAM130_CUTK1 is a 13MP 4-lane MIPI CSI-2 Camera board for NVIDIA Tegra K1 CPU (Jetson Development Kit). The e-CAM130_CUTK1 camera is interfaced to the Jetson development kit through 4-lane MIPI CSI-2 interface. e-con provides the full-fledged MIPI CSI-2 camera driver for this module that enables the customers to take full advantage of 4-lane MIPI CSI-2 interface supported by the NVIDIA Tegra K1 CPU.
e-CAM40_CUTK1 is a 4MPl, 4-lane MIPI CSI-2 Camera solution for NVIDIA Tegra K1 (and the Jetson TK1 Developer Kit) based on the OV4682 RGB-IR pixel format CMOS image sensor.
Tara is a UVC-Complaint 3D Stereo camera that can be used with the Jetson Embedded Platform to develop Stereo Camera algorithms, and be integrated into a final product design. Synchronized frame data from its two MT9V024 sensors (up to WVGA resolution -- (2*752) x 480) are interleaved side by side and provided at 60fps over USB 3.0 in uncompressed format.
EmbPower's Sparkle TK1 SOM module (68mm X 68mm RTX PIN-OUT) is an industrial grade module useful from design to production. It features a variety of power solutions (5 volts, 12 volts or battery options), can work in extreme temperatures (-20 °C to +80 °C), and an OV5640 camera module. Sparkle also offers a TK1 Developer KIT for ODM project requirements as well as other ready to use TK1 solutions – TK1 PowerUnit and TK1 PowerUnit_w.
Fully functional 2MP camera kit that plugs into the Jetson TX1 Developer Kit for quick development of vision based applications. The IMX185 sensor connects to the TX1 via CSI and uses NVIDIA's ISP.
Fully functional 8MP camera kit that plugs into the Jetson TX1 Developer Kit for quick development of vision based applications. The IMX274 sensor connects to the TX1 via CSI and uses NVIDIA's ISP.
AirVision CORE X1 is a high performance computing module for drones based on NVIDIA Jetson TX1, combined with AirVision software suite, for sensor integration, real-time image processing pipeline, image stabilization, object tracking, and gimbal / datalink integration. CORE X1 can also provide video georeferencing metadata for integration with GIS or other systems and allows the drone manufacturers to easily create advanced imaging systems.
Neurala Follow leverages the power of the NVIDIA TK1 and TX1 to enable a developer of robots, drones, consumer electronics or toys to learn any arbitrary object in seconds using only a camera, to track that object and give motor commands to follow the object. Neurala with NVIDIA lowers costs because it does not require specialized hardware, such as a radio device or a cell phone, which adds hardware cost, weight and power consumption.
is a hardware and software design house specialized in vision systems and video over IP network technologies based on NVIDIA Jetson Embedded platform. Covering needs ranging from defense to movie industry, Nexvision uses all its resources and know-how to find an appropriate high value-added solution for each market.
Uniqueness defines this high performance and versatile platform. With an NVIDIA Tegra K1 at its core, the slimBOX nano N258N1-B puts the incredible power of a Kepler GPU with CUDA technology in your projects, boosting efficiency for those resource intensive applications, and proving the only smooth 4K playback on an ARM platform.
The COMe-A81-CT6 features the NVIDIA Tegra K1 SoC for unique mobile experiences in the COM Express Form Factor, ideal for applications in Visual Computing, Automotive and In-Vehicle Infotainment Systems.
This miniature module based on NVIDIA Tegra K1 SoC (System-on-a-Chip) is a powerful embedded solution for graphical and number crunching applications. Tonson Labs SOM has a complete solution with full environment support for Medical devices, Consumer applications and Military solutions. The powerful yet low power module enables to put a large computing power at a very small space on battery operated platforms.
This carrier board is designed for the Tegra K1 SoM, and offers a large array of input and output functions. It has individual connectors for video input and output, camera inputs and outputs, and fast busses such as PCi, USB3.0 and LVDS. Displays can be connected through MIPI, LVDS or HDMI, and touch display is supported via I2C.
The Apalis TK1 is a small Tegra K1 SoM. The module exposes interfaces such as Gbit Ethernet, PCIe, SATA, and USB 3.0. The module also features a Kinetis K20 MCU, which extends the module with two CAN interfaces, several ADC, additional GPIOs, and several other low-speed interfaces. Since the MCU is independent of the Tegra K1, it can be used for hard real time and security critical tasks.<>
The Ixora Carrier Board is a compact, production-ready carrier board suitable for use with the Apalis TK1 SoM. The small form factor has been designed for cost effectiveness in small-to-medium volume applications, but still exposes a majority of the SoM interfaces. The connectors, LEDs, and push buttons are located at the board edge in a way that allows for simple integration with an enclosure.
provides comprehensive embedded solutions for NVIDIA Jetson products, and has extensive experience in system customization across a variety of industries. A full range of services are offered, from conceptual system design all the way to mass production, including hardware, software, and application development.
is an experienced design house for solutions based on the Jetson Embedded Platform, and supports companies in developing and industrializing their Internet of Things and advanced radio products. The WSI team has long experience from delivering complex projects and mobile products and provides a flexible resource that takes a product from idea to volume production. WSI is a privately held company based in Stockholm, Sweden.