jetson - Connection to NVIDIA
Jetson hardware - MATLAB ([original](https://in.mathworks.com/help/coder/nvidia/ref/jetson.html)) ([raw](?raw))Connection to NVIDIA Jetson hardware
Description
This object represents a connection from the MATLAB® software to the NVIDIA® Jetson™ hardware. To create this object, use the jetson function. To interact with the Jetson hardware, use this object with the functions listed in Object Functions.
Creation
Syntax
Description
[obj](#mw%5F01aa3e19-e506-4c63-ae03-b0cf91d4c69c) = jetson creates a connection,obj, from the MATLAB software to the NVIDIA Jetson hardware. Use this syntax to connect or reconnect to the same hardware. You do not need to supply the device address, user name, and password. Thejetson object reuses these settings from the most recent successful connection to the Jetson hardware.
[obj](#mw%5F01aa3e19-e506-4c63-ae03-b0cf91d4c69c) = jetson([deviceaddress](#mw%5Fbfce99a4-87e8-4b53-a460-143f5e9bd5cd),[username](#mw%5F29cad614-5d73-4771-baee-a50901a007e3),[password](#mw%5F9a59798d-b233-4b5c-8a71-1c9ce217caa4)) overrides the device address, user name, and password from the previous connection. Use this syntax to connect to hardware whose settings are different from the previous successful connection. The Jetson hardware has two default user names: 'nvidia' and'ubuntu'. For 'nvidia', the default password is'nvidia'. For 'ubuntu', the default password is'ubuntu'. It is a good security practice to create a strong password after the first login. After changing the hardware password, or after connecting from the MATLAB software to a different piece of Jetson hardware, use this syntax.
After connecting to the hardware, you can use the obj object to interact with the Jetson hardware and attached peripherals such as a camera. To close the connection, use clear to remove obj and connections that use obj.
Input Arguments
IP address or host name of the hardware, specified as a character vector or string.
To use the host name, you must connect an Ethernet cable to the Ethernet port of the board. Use Linux® commands to configure the hardware IP address and associate the host name with the IP address.
Example: '169.254.0.2'
Example: 'jetson-board-name'
Linux user name, specified as a character vector or string.
Example: 'ubuntu'
Password associated with the Linux user name, specified as a character vector or string.
Example: 'ubuntu'
Output Arguments
A connection from the MATLAB software to the Jetson hardware, returned as a jetson object.
Properties
This property is read-only.
The numbers of the available GPIO pins on the NVIDIA Jetson hardware, returned as a vector of doubles.
Example: [7 11 12 13 15 16 18 19 21 23 24 29 31 32 33 35 36 37 38 40]
Data Types: array
This property is read-only.
The name of the target Jetson board, returned as a character vector.
Example: 'NVIDIA Jetson TX2'
This property is read-only.
Version number of the CUDA toolkit installed on the Jetson board, returned as a character vector.
Example: '9.0'
This property is read-only.
Version number of the CUDA Deep Neural Network library (cuDNN) installed on the Jetson board, returned as a character vector.
Example: '7.0'
This property is read-only.
The IP address or host name of the Ethernet port on the Jetson board, returned as a character vector.
Example: '169.254.0.2' 'jetson-board-name'
This property is read-only.
Additional information on the GPU of the Jetson board, returned as a 1-by-1 structure. To access this structure useobjectName.GPUInfo. The structure contains the following fields:
| Name | Description |
|---|---|
| Name | Name of the CUDA device. |
| Index | Index of the selected GPU device. |
| ComputeCapability | Computational capability of the CUDA device. |
| CUDADriverVersion | The CUDA device driver version on the board currently in use. |
| CUDAToolkitVersion | Version of the CUDA toolkit on the board. |
| MaxThreadsPerBlock | Maximum supported number of threads per block during CUDA kernel execution. |
| MaxSharedMemPerBlock | Maximum amount of shared memory that a thread block can use during CUDA kernel execution. |
| MaxThreadBlockSize | Maximum size in each dimension for thread block. |
| MaxGridSize | Maximum size of grid of thread blocks. |
| AvailableMemory | Total amount of memory (in bytes) available for data. |
| TotalConstMem | Total amount of constant memory (in bytes) available for data. |
| MultiprocessorCount | The number of vector processors present on the device. |
| TotalCUDACores | Total number of CUDA cores available on the target board. |
| MaxThreadsPerSM | Maximum number of threads per symmetric multiprocessor. |
For example, a Jetson TX2 board has the following values:
hwJetson.GPUInfo
ans =
struct with fields:
Name: 'NVIDIA Tegra X2'
Index: 0
ComputeCapability: 6.2000
CUDADriverVersion: 9
CUDAToolkitVersion: 9
MaxThreadsPerBlock: 1024
MaxSharedMemPerBlock: 49152
MaxThreadBlockSize: [1024 1024 64]
MaxGridSize: [2.1475e+09 65535 65535]
AvailableMemory: 8.2358e+09
TotalConstMem: 65536
MultiprocessorCount: 2
TotalCUDACores: 256
MaxThreadsPerSM: 2048This property is read-only.
Version number of the GStreamer library installed on the Jetson board, returned as a character vector.
Example: '1.14.5'
This property is read-only.
Version number of the OpenCV library installed on the Jetson board, returned as a character vector.
Example: '4.1.1'
This property is read-only.
The SSH port number on the Jetson board, returned as an integer.
Example: 22
This property is read-only.
Version number of the SDL library installed on the Jetson board, returned as a character vector.
Example: '1.2'
This property is read-only.
Version number of the NVIDIA TensorRT library installed on the Jetson board, returned as a character vector.
Example: '3.0'
This property is read-only.
Version number of the V4L2 library installed on the Jetson board, returned as a character vector.
Example: '1.14.2-1'
This property is read-only.
A list of the USB web cameras that are available, returned as a cell array of strings.
Example: {'Microsoft(R) LifeCam Cinema (TM)'}
Object Functions
| configurePin | Configure GPIO pin as digital input or digital output |
|---|---|
| deleteFile | Delete file on target hardware |
| getCameraList | Get a list of available cameras on the NVIDIA hardware |
| getDisplayEnvironment | Get the display environment value used for redirecting the display on the target |
| getFile | Transfer file from NVIDIA hardware to host computer |
| getL4TVersion | Get the L4T version of the NVIDIA Jetson hardware |
| getLinuxVersion | Get information about the Linux environment on the target |
| getPILPort | Get the TCP/IP port number used by the PIL execution |
| getPILTimeout | Get the timeout value that PIL uses for reading data |
| imageDisplay | Create an imageDisplay object for displaying images onNVIDIA targets |
| killApplication | Kill an application on the NVIDIA target by name |
| killProcess | Kill a process on the NVIDIA target by ID |
| listAudioDevices | Get a list of available audio devices on the NVIDIA hardware |
| openShell | Open terminal on host computer to use a Linux shell on NVIDIA hardware |
| putFile | Transfer file from host computer to target hardware |
| readDigitalPin | Read logical value from GPIO input pin |
| runApplication | Launch an application on the NVIDIA target by name |
| runExecutable | Launch an executable on the NVIDIA target by name |
| setDisplayEnvironment | Set the display environment value used for redirecting the display on the target |
| setPILPort | Set the TCP/IP port number used by the PIL execution |
| setPILTimeout | Set the timeout value that PIL uses for reading data |
| setupCodegenContext | Select the target hardware to build code for from multiple live connection objects |
| showPins | Show diagram of GPIO pins |
| system | Run commands in a Linux shell on the NVIDIA hardware |
| updatePeripheralInfo | Scan for and update the list of peripherals connected to the target hardware |
| webcam | Create webcam object to acquire images from a USB webcam attached to the NVIDIA hardware |
| workspaceDir | Get the build directory on the NVIDIA hardware |
| writeDigitalPin | Write logical value to GPIO output pin |
Examples
This example shows you how to create a connection from the MATLAB software to the NVIDIA Jetson hardware. The Jetson hardware is connected to the same TCP/IP network as the host computer. This example uses the device address, user name, and password settings from the most recent successful connection to the Jetson hardware.
Create a connection, hwJetson, from the MATLAB software to NVIDIA Jetson hardware.
Checking for CUDA availability on the Target... Checking for 'nvcc' in the target system path... Checking for cuDNN library availability on the Target... Checking for TensorRT library availability on the Target... Checking for prerequisite libraries is complete. Gathering hardware details... Checking for third-party library availability on the Target... Gathering hardware details is complete. Board name : NVIDIA Jetson TX2 CUDA Version : 10.0 cuDNN Version : 7.6 TensorRT Version : 6.0 GStreamer Version : 1.14.5 V4L2 Version : 1.14.2-1 SDL Version : 1.2 OpenCV Version : 4.1.1 Available Webcams : Microsoft® LifeCam Cinema(TM) Available GPUs : NVIDIA Tegra X2 Available Digital Pins : 7 11 12 13 15 16 18 19 21 22 23 24 29 31 32 33 35 36 37 38 40
hwJetson =
jetson with properties:
DeviceAddress: 'jetson-board-name'
Port: 22
BoardName: 'NVIDIA Jetson TX2'
CUDAVersion: '10.0'
cuDNNVersion: '7.6'
TensorRTVersion: '6.0'
SDLVersion: '1.2'
V4L2Version: '1.14.2-1'
GStreamerVersion: '1.14.5'
OpenCVVersion: '4.1.1'
GPUInfo: [1×1 struct]
WebcamList: {'Microsoft® LifeCam Cinema(TM)'}
AvailableDigitalPins: [7 11 12 13 15 16 18 19 21 22 23 24 29 31 32 33 35 36 37 38 40]The MATLAB Coder™ Support Package for NVIDIA Jetson and NVIDIA DRIVE® Platforms establishes an SSH connection to the Jetson hardware using the settings stored in memory. It checks for the CUDA toolkit, cuDNN, and TensorRT libraries on the target hardware and displays this information on the MATLAB Command Window. To set up the environment variables on the board for the compiler and the libraries, see Prerequisites for Generating Code for NVIDIA Boards.
To get the L4T software version on the Jetson board, use the getL4TVersion method of thejetson connection object.
Jetson L4T version is: L4T R28.2.0.
To start a PuTTY SSH terminal session on the Jetson board, use the openShell method of thejetson connection object.
Using username "ubuntu". Welcome to Ubuntu 16.04.5 LTS (GNU/Linux 4.4.38-tegra aarch64)
- Documentation: https://help.ubuntu.com
- Management: https://landscape.canonical.com
- Support: https://ubuntu.com/advantage
30 packages can be updated. 0 updates are security updates.
Last login: Sat Aug 11 19:38:08 2018 from 169.20.200.242
ubuntu@tegra-ubuntu:$ ls
Desktop gpucoderTX2 Music remoteBuildDir Videos
Documents jetson_clocks.sh Pictures tegrastats weston.ini
Downloads MATLAB Public Templates
ubuntu@tegra-ubuntu:$
After logging into the Linux shell, you execute shell commands such as ls as shown.
To close the connection, use clear to removehwJetson and connections that use hwJetson.
This example shows you how to create a connection from the MATLAB software to the NVIDIA Jetson hardware that has different device address, user name, and password settings from the previous successful connection.
Create a connection, hwJetson, from the MATLAB software to NVIDIA Jetson hardware. For example,
hwJetson = jetson('169.254.0.2','nvidia','nvidia');
Checking for CUDA availability on the Target... Checking for 'nvcc' in the target system path... Checking for cuDNN library availability on the Target... Checking for TensorRT library availability on the Target... Checking for prerequisite libraries is complete. Gathering hardware details... Checking for third-party library availability on the Target... Gathering hardware details is complete. Board name : NVIDIA Jetson TX2 CUDA Version : 10.0 cuDNN Version : 7.6 TensorRT Version : 6.0 GStreamer Version : 1.14.5 V4L2 Version : 1.14.2-1 SDL Version : 1.2 OpenCV Version : 4.1.1 Available Webcams : Microsoft® LifeCam Cinema(TM) Available GPUs : NVIDIA Tegra X2 Available Digital Pins : 7 11 12 13 15 16 18 19 21 22 23 24 29 31 32 33 35 36 37 38 40
hwJetson =
jetson with properties:
DeviceAddress: '169.254.0.2'
Port: 22
BoardName: 'NVIDIA Jetson TX2'
CUDAVersion: '10.0'
cuDNNVersion: '7.6'
TensorRTVersion: '6.0'
SDLVersion: '1.2'
V4L2Version: '1.14.2-1'
GStreamerVersion: '1.14.5'
OpenCVVersion: '4.1.1'
GPUInfo: [1×1 struct]
WebcamList: {'Microsoft® LifeCam Cinema(TM)'}AvailableDigitalPins: [7 11 12 13 15 16 18 19 21 22 23 24 29 31 32 33 35 36 37 38 40]
Extended Capabilities
Version History
Introduced in R2018b
See Also
Objects
Topics
- Sobel Edge Detection on NVIDIA Jetson Nano Using Raspberry Pi Camera Module V2
- Getting Started with the MATLAB Coder Support Package for NVIDIA Jetson and NVIDIA DRIVE Platforms
- Deploy and Run Sobel Edge Detection with I/O on NVIDIA Jetson Nano
- Build and Run an Executable on NVIDIA Hardware
- Stop or Restart an Executable Running on NVIDIA Hardware
- Run Linux Commands on NVIDIA Hardware