Jetson TX1

NVIDIA Jetson TX1 is an embedded system-on-module (SoM) with quad-core ARM Cortex-A57, 4GB LPDDR4 and integrated 256-core Maxwell GPU.

Useful for deploying computer vision and deep learning, Jetson TX1 runs Linux and provides 1TFLOPS of FP16 compute performance in 10 watts of power.

Jetson TX1 is available as the module, developer kit, and in compatible ecosystem products. See the wiki of other Jetson's here, including the latest Jetson AGX Xavier.



= Jetson TX1 Module = The Jetson TX1 module contains all the active processing components. The ports are broken out through a carrier board.

Below is a partial list of the module's features. Please see the Module Datasheet for the complete specifications.



Processing Components

 * quad-core ARM Cortex-A57
 * 256-core Maxwell GPU
 * 4GB LPDDR4
 * 16GB eMMC
 * H.264/H.265 encoder & decoder
 * Dual ISPs (Image Service Processors)

Ports & Peripherals

 * HDMI 2.0
 * 802.11ac WiFi, Bluetooth 4.0
 * USB3, USB2
 * Gigabit Ethernet
 * 12 lanes MIPI CSI 2.0
 * 4 lanes PCIe gen 2.0
 * SATA, 2x SDcard
 * 3x UART, 3x SPI, 4x I2C

Form-Factor

 * 400-pin Samtec board-to-board connector
 * dimensions: 50x87mm     (1.96" x 3.42")
 * mass: 45 grams
 * Thermal Transfer Plate (TTP), -25C to 85C operating temperature
 * 5.5-19.6VDC input power (consuming 10-15W, under typical load)

Software Support

 * JetPack 4.2.2
 * Linux4Tegra R32.2.1 (L4T)
 * Linux kernel 4.9
 * Ubuntu 18.04 aarch64
 * CUDA Toolkit 10.0.326
 * cuDNN 7.5.0
 * TensorRT 5.1.6
 * TensorFlow 1.14.0
 * VisionWorks 1.6
 * OpenCV 3.3.1
 * OpenGL 4.6 / OpenGL ES 3.2.5
 * Vulkan 1.1.1
 * L4T Multimedia API (Argus 0.97)
 * GStreamer 1.14.1
 * V4L2 media controller support
 * NVIDIA Nsight Systems 2019.4
 * NVIDIA Nsight Graphics 2019.2
 * NVIDIA Nsight Compute 1.0

See the Jetson Zoo for more software packages to install on top of JetPack.

Availability

 * Europe - Silicon Highway
 * USA - Arrow
 * Use the Region Selector to find distributors of the module in your region.

= Jetson TX1 Developer Kit =

The Jetson TX1 Developer Kit bundles together all the parts to get started, including:



What's Included

 * mini-ITX Reference carrier board
 * Jetson TX1 Module
 * fan and heatsink (pre-assembled)
 * 5MP CSI camera module (with Omnivision OV5693)
 * WiFi/BT antennas
 * USB OTG adapter
 * 19VDC Power brick
 * AC Power cable

The design files for the reference carrier board and camera module included in the devkit are freely available for download.

Getting Started

 * Get the latest development software for PC and TX1 by using JetPack.


 * Plug in an HDMI display into Jetson, attach the antennas and USB keyboard & mouse, and apply power to boot it up.     (User Guide)


 * Visit the Embedded Developer Zone and Developer Forum to access the latest documentation & downloads.

Availability

 * Use the Region Selector to find distributors of the devkit in your region.


 * There's also an Academic Discount available for those belonging to an educational organization.

= Platform Documentation =

NVIDIA has released comprehensive documentation and reference designs for the Jetson TX1 module and devkit.


 * Module Datasheet     the official module features, ports, signal pin-out, and package specifications.
 * Design Guide     detailed technical design and layout information for creating OEM products.
 * DevKit User Guide     guide to unpacking, setting up, and flashing the Jetson TX1 Developer Kit.
 * DevKit Carrier Spec     design info about the reference carrier board from the devkit.
 * DevKit Design Files     schematics, layout, and design files for the devkit reference carrier board.
 * DevKit CAD Models     3D STEP file for reference carrier board, heatsink, camera board, and module.
 * Camera Design Files     schematics, layout, and design files for the devkit MIPI CSI-2 camera module.
 * Thermal Design Guide     mechanical specifications for designing active and passive cooling solutions.
 * Module PinMux     excel spreadsheet macro for generating ARM device tree source (DTS) files.
 * L4T Kernel Docs     documentation for L4T kernel developers (including V4L2/camera drivers).
 * Tegra X1 TRM     Technical Reference Manual for the TX1 system-on-chip and register data.
 * Multimedia API Reference     documentation to Argus camera API and V4L2 media codecs
 * Accelerated GStreamer Guide     example gstreamer pipelines for accessing H.264/H.265 hardware video codec.

Above is a partial list of documents. Please visit the Downloads Center at Embedded Developer Zone for the full list that's currently available.

= Guides and Tutorials =

This section contains recipes for following along on Jetson.

System Tools

 * Cloning & Backup
 * Jetson TX1 Build Assistant Scripts
 * Flashing Tools and Protocols
 * Boot Configuration Table (BCT) Overview
 * Tegra Boot Flow      (nvtboot for TX1)
 * Compiling the L4T Kernel
 * Using the Upstream Linux Kernel
 * Building the Ubuntu Sample Root Filesystem
 * Controlling Core Clock Frequency Performance
 * Measuring Power with Onboard INA Monitors
 * Intro to Tegra System Profiler
 * MIPI DSI/CSI Design and Develop Guide
 * Enabling the SPI Port
 * Wiring the Serial Console
 * GPIO Interfacing (JetsonHacks)
 * Running WiFi Access Point with hostapd
 * Python GUI Gstreamer Launcher (includes temp sensor and bandwidth monitor)
 * Sending Bayer➝H.264➝RTP Stream (GStreamer pipeline)
 * Tegra Use Case Model configuration
 * jetson_easy - automatic setup/scripting

Robotics

 * NVIDIA Jetson GitHub     (open-source robotics projects with deep learning)
 * NVIDIA Redtail GitHub     (end-to-end deep learning drone for ROS)
 * Jetson Reference Platforms (off-the-shelf robots with TX1/TX2)
 * FIRST FRC Configuration     (setup guide for FIRST Robotics)
 * ROS for FRC Whitepaper     (Zebracorns team #900 Vision GitHub)
 * Installing ROS Kinetic     (JetsonHacks)
 * Fast SLAM Particle Filter     (Accelerated Localization using Raycasting)
 * Using I2C and LIDAR-Lite     (JetsonHacks)
 * Connecting the Pixhawk and TX1 (ArduPilot)

Computer Vision

 * NVIDIA OpenCV 101 - screencast tutorials
 * Installing OpenCV4Tegra
 * Building OpenCV3 from Source
 * VisionWorks Training
 * Camera Testing in L4T on TX1
 * Motion Estimation on RTP streaming video

Deep Learning

 * NVIDIA Two Days to a Demo     (TensorRT)
 * NVIDIA Deep Learning Institute     (QwikLabs)
 * Caffe     (BVLC Model Zoo)
 * NVcaffe FP16     (Install Guide)
 * Caffe Installation on TX1 (JetsonHacks)
 * Caffe Hands-on Lab     GitHub repo
 * Cat Detector with Caffe and TX1     (Robert Bond)
 * GPU-based Inference whitepaper     Performance Validation
 * TensorFlow post     (JetsonHacks)
 * Torch7      install script
 * pyTorch     install script
 * RidgeRun's GstInference
 * RidgeRun's R2Inference
 * dusty-nv's Jetson GitHub     jetson-inference      jetson-reinforcement
 * jetson-inference-gv Inference on GigEVision / RTP streaming video (Ross Newman)
 * jetson-inference-cards     (playing card recognition by S4WRXTTCS)
 * vmayoral's Basic Reinforcement Learning
 * JK Jung RL blog - NES AI player
 * ChatBot     (TensorFlow→TensorRT inferencing workflow by AastaNV)
 * face-recognition     (face detection with TensorRT plugin by AastaNV)
 * NVIDIA GitHub     (open-source robotics/DL projects)
 * NVIDIA Redtail     (end-to-end deep learning drone for ROS)
 * Training a Fish Detector with DetectNet     part 1 part 2      (jkjung)
 * Hey, Jetson!     (Automatic Speech Recognition using CNN/RNN)
 * Making a Deep Learning Camera with Python

Multimedia

 * Gstreamer Pipelines for TX1
 * RidgeRun's GstInterpipe (GStreamer plug-in for communication between two or more independent pipelines)
 * RidgeRun's GstRRWebRTC (GStreamer plug-in that turns pipelines into WebRTC compliant endpoints)
 * RidgeRun's GstRTSPSink (GStreamer element for high performance streaming to multiple computers using the RTSP/RTP protocols)
 * RidgeRun's Gstreamer Daemon - GstD (GStreamer framework for controlling audio and video streaming using TCP connection messages)
 * RidgeRun's GstCUDA (RidgeRun CUDA ZeroCopy for GStreamer)
 * RidgerRun's GstPTZR (GStreamer Pan Tilt Zoom and Rotate Element)
 * RidgeRun's GstColorTransfer (GStreamer plug-in that transfers the color scheme from a reference to a target image)

V4L2 drivers for cameras

 * RidgeRun has a list of drivers already supported in Jetson, please check if the driver that you need is already there. Otherwise, RidgeRun offers services to create the driver for you

Design FAQs
There are some useful FAQs for Jetson TX1 design, link is here.

= Linux Distributions =

Jetson TX1 comes preloaded with NVIDIA's Linux4Tegra (L4T) distribution based on Ubuntu.

However it is possible to install other distributions on a Tegra device:


 * Debian: Debian has installer and kernel support for the Jetson TX1 development kit and provides a u-boot binary
 * Yocto: Jetson TX1 upstream kernel base Yocto bsp layer
 * AGL distro for jetson TX1/TK1: AGL distro for Jetson TX1/TK1.

= Multiple Cameras = There are several ways to handle multiple cameras on Jetson TX1 at the same time:

6 MIPI CSI-2 Cameras support for Jetson TX1 from e-con systems

3 MIPI CSI-2 Cameras support for Jetson TX1 from e-con systems

= Ecosystem Products =

The following are 3rd-party carriers, enclosures, drones, and accessories available for Jetson TX1:


 * Auvidea J20 6-camera module
 * Auvidea J90 carrier
 * Auvidea J100 carrier
 * Auvidea J106 carrier (6 camera)
 * Auvidea J120 carrier
 * Auvidea J130 carrier (4K input)
 * Auvidea J140 dual-GbE carrier
 * Auvidea J150 OpenGear blade
 * Auvidea J200 carrier
 * Avermedia EX731-AA carrier
 * Avermedia EX713-AA carrier
 * Avermedia EX711-AA carrier
 * ConnectTech Sprocket carrier
 * ConnectTech Orbitty carrier
 * ConnectTech Spacely carrier
 * ConnectTech Cogswell carrier
 * ConnectTech Rosie enclosure
 * ConnectTech Elroy carrier
 * ConnectTech Rudi enclosure
 * ConnectTech Astro carrier
 * ConnectTech 3U VPX card
 * ConnectTech UTX1AS array server
 * Colorado Engineering TX1-SOM
 * Code Laboratories Duo3D camera
 * D3 Engineering Smart Camera
 * DCDZ(冬虫电子) XCB-Lite carrier with eDP, CSI, DSI, MicroHDMI etc
 * DCDZ(冬虫电子) XCB-OV5640  OV5640 M12 lens camera
 * DCDZ(冬虫电子) XCB-OV5693  OV5693  camera
 * DCDZ(冬虫电子) XCB-H2C   HDMI  to CSI expansion board
 * DCDZ(冬虫电子) XCB-SDI   SDI  to CSI expansion board
 * DCDZ(冬虫电子) XCB-8eyes   4 or 8 cameras ADAS  expansion board
 * DCDZ(冬虫电子) XCB-AUDIO   Sound card expansion board
 * Erle Robotics Erle-Brain Pro (coming soon)
 * Formula F1/10 RC car
 * Gumstix Aerocore2 drone carrier
 * JetsonHacks RACECAR
 * Leopard Imaging TX1 Camera Kits
 * Leopard Imaging TX1 Camera Carrier
 * e-con Systems 13MP AR1335 AF MIPI Jetson TX1/TX2 Camera
 * e-con Systems 13MP AR1335 MIPI Jetson TX1/TX2 Camera
 * e-con Systems 2MP AR0230AT MIPI Jetson TX1/TX2 Camera
 * e-con Systems 2MP SONY IMX290 MIPI Jetson TX1/TX2 Camera
 * e-con Systems 3.4 MP AF AR0330 MIPI Jetson TX1/TX2 Camera
 * e-con Systems 13MP AR1820 MIPI Jetson TX1/TX2 Camera
 * e-con Systems 3.4 MP AR0330 MIPI Jetson TX1/TX2 Camera
 * e-con Systems 3.4 MP AR0330 GMSL MIPI Jetson TX1/TX2 Camera
 * iDrone Teal high-speed drone
 * MIT RACECAR
 * MR TECH AM203 AMC carrier for ATCA/μTCA
 * MR TECH TX1 carrier with XIMEA camera interfaces
 * Photoneo carrier & camera module
 * Pixevia CORE X1 drone carrier
 * Pleiades Spiri developer drone
 * Prioria Merlin autopilot
 * Puget Systems Acrylic Enclosure
 * RidgeRun GStreamer and Multimedia Solutions
 * Stereolabs ZED depth camera
 * USES Integrated UTX1AS array server
 * Viooa Solo
 * Vision4CE CHARM-100 enclosure
 * ZHAW 4K HDMI2CSI interface
 * BeadaPanel USB Display+WiFi+Storage 3-In-1 Companion Kit

TX1 SoC is also used in consumer products.



= USB 3.0 webcams known to be working =


 * e-con Systems' See3CAM_CU135 was tested on Jetson TX1 with 1920x1080 @ 29 FPS (uncompressed), 1920x1080 @ 18 FPS (MJPG compressed), 4096x2160 @ 6 FPS (uncompressed), 4208x3120 @ 3 FPS (uncompressed), as well as other settings.


 * e-con Systems' See3CAM_130 was tested on Jetson TX1 with 1920x1080 @ 29 FPS (uncompressed), 1920x1080 @ 15 FPS (MJPG compressed), 4096x2160 @ 7 FPS (uncompressed), 4208x3120 @ 4 FPS (uncompressed), as well as other settings.


 * e-con Systems' See3CAM_81 was tested on Jetson TX1 with 1920x1080 @ 12 FPS (uncompressed), 3264x2448 @ 5 FPS (uncompressed), as well as other settings.


 * e-con Systems' See3CAM_30 was tested on Jetson TX1 with 1920x1080 @ 13 FPS (uncompressed), 1280x720 @ 30 FPS (uncompressed), 1920x1080 @ 42 FPS (MJPG compressed), 1280x720 @ 20 FPS (MJPG compressed),as well as other settings.


 * e-con Systems' See3CAM_CU30 was tested on Jetson TX1 with 1920x1080 @ 13 FPS (uncompressed), 1280x720 @ 30 FPS (uncompressed), 1920x1080 @ 42 FPS (MJPG compressed), 1280x720 @ 20 FPS (MJPG compressed),as well as other settings.


 * Stereolabs ZED
 * Point Grey Flea3 & Blackfly
 * Logitech C920

= Getting Help = If you have a technical question or bug report, please visit the DevTalk Developer Forums and search or start a topic.

See the official Support page on Embedded Developer Zone for warranty and RMA information: https://developer.nvidia.com/embedded/support

For NVIDIA webstore Customer Service, please see the My Account page or contact 1-800-797-6530.