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This is a free C++ compiler from Borland. It comes with an IDE and debugger.

A full-featured IDE for C programming. Dev-C is an integrated development environment (IDE) for the C programming language. It presents a feature-rich environment, tools for writing and debugging, as well as a compiler to provide you with all the tools necessary to program software in C. The program is a fork of the Bloodshed Dev-C. To the best of my knowledge, no Mac version of Turbo C was ever released. It was an exclusively DOS/Windows product. Note the past tense. The product is obsolete and hasn’t been supported for about 20 years. Complete roguelike tutorial using C and libtcod -originally written by Jice Text in this tutorial was released under the Creative Commons Attribution-ShareAlike 3.0 Unported and the GNU Free Documentation License (unversioned, with no invariant sections, front-cover texts, or back-cover texts) on 2015-09-21. 2B Distorted (formerly known as 2B Clipped XT) is an extreme powerful distortion/clipping plug-in made by 2B Played Music. We created the plug-in specially for producers who are concerned with producing the harder styles of dance music. Still, this distortion / clipping plug-in is also ideal for creating distorted effect sounds or that edgier sound on vocals, synths and string instruments such. Download X2Go Client (Windows installer (7 and Later), OS X 10.9 and higher DMG, OS X 10.11 and higher DMG or macOS 10.13 and higher DMG) Download X2Go Client nightly builds ( Windows (untested)) ( OS X (untested, dependencies possibly older)).

Last update 1 Mar. 2018 Licence Free to try OS Support Windows DownloadsTotal: 2,966,664 | Last week: 203Ranking#3 in C / C++ / C#PublisherVaibhav Kulkarni
Editor's rating:Read the editor's review

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Turbo C++ Editor's Review

Before the fancy flashy user interfaces and programming tools of the modern day, compilers like Turbo C 3.0 were the best way to develop your applications, and the program is not without its uses today.
Old School Programming
Turbo C, followed by Turbo C++, was a popular compiler in the late eighties and early nineties. Version 3.0, with Windows compatibility, was released in 1991. Although other versions followed, Turbo 3.0 was almost universally considered to be the most stable - always an important consideration when programming!
Sadly, by the mid-nineties Turbo C had been generally abandoned in favour of compilers with a more modern interface and functionality. Although the graphics interface is primitive by today's standards, Turbo C is still perfectly adequate for the development of applications and compilation of the code to obtain executable files. It probably won't be able to handle massive programs, but for teaching yourself the ropes of C or C++ it's a quick, easy and free way to get started. The nostalgia factor also can't be beaten - anyone who learned C++ in the early nineties and wants to check out their first programs will find Turbo C 3.0 a perfect blast from the past.
Conclusion: While you won't be using Turbo C 3.0 to develop the next big first person shooter it fulfils its role as a C and C++ compiler well. The old-school interface might take a little time to get used to, but Turbo C 3.0 is perfect for those who want a simple effective compiler for small C or C++ programs.

Turbo C++ Publisher's Description

This is a free C++ compiler from Borland. It comes with an IDE and debugger.

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Introduction

The NVIDIA® Jetson Nano 2GB Developer Kit is ideal for hands-on projects. Learning by doing is key for anyone new to AI and robotics, and with this developer kit you’ll see your work perceiving and interacting with the world around you in real-time.

This Getting Started Guide will have you set up quickly and ready to start building practical AI applications, cool AI robots, and more.


  1. microSD card slot for main storage
  2. 40-pin expansion header
  3. Micro-USB port for Device Mode
  4. Gigabit Ethernet port
  5. USB 2.0 ports (x2)
  6. USB 3.0 port (x1)
  7. HDMI output port
  8. USB-C for 5V power input
  9. MIPI CSI-2 camera connector

Included in the Box

Your Jetson Nano 2GB Developer Kit includes:

  • NVIDIA Jetson module and reference carrier board
  • Quick Start / Support Guide
  • 802.11ac wireless adapter and extension cable

The wireless networking adapter isn’t initially available in all regions, but will be added as it becomes available. Jetson Nano 2GB Developer Kit Part Numbers:

  • 945-13541-0000-000 includes adapter and cable
  • 945-13541-0001-000 does not include adapter and cable

Items not Included

You’ll also need:

  • microSD Card (UHS-1 32 GB minimum)
    • 64 GB or more recommended
    • High endurance card recommended
  • USB keyboard and mouse
  • HDMI display
  • USB-C power supply (5V⎓3A)

Initially, a computer with Internet connection and the ability to flash your microSD card is also required.

Additional Notes

microSD Card

The developer kit uses a microSD card as boot device and for main storage. It’s important to have a card that’s fast and large enough for your projects; the minimum requirement is a 32GB UHS-1 card.

Many projects with Jetson Nano 2GB Developer Kit will utilize swap space on the microSD Card due to only 2GB physical memory. For this reason we recommend 64GB or larger microSD cards. High endurance microSD cards are also recommended.

USB-C Power Supply

The Jetson Nano 2GB Developer Kit can be powered with common USB-C power supplies, but it does not support the USB-C Power Delivery protocol. This means commonly available USB-C power supplies can be used, but they will all fall back to delivering 5V⎓3A because no power negotiation takes place.

You’ll need to power the developer kit with a good quality power supply (and cable) that can deliver 5V⎓3A at the developer kit’s USB-C port. The stated power output capability of a USB power supply can be seen on its label, but not every power supply promising “5V⎓3A” will actually do this.

See our Supported Components List for power supplies that NVIDIA has validated for use with the developer kit.

Network Connectivity

You can connect your developer kit to the Internet using:

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  • Gigabit Ethernet port
  • Wireless networking adapter

The developer kit includes an 802.11ac networking adapter (where available). Other networking adapters validated for use with the developer kit can be found in the Supported Components List. Other adapters not validated by NVIDIA may work if they support Linux and the driver is correctly installed by the user.

If your developer kit includes a wireless networking USB adapter, please use it with the included extension cable and connect it to the USB 3.0 port for best networking performance.

Write Image to the microSD Card

To prepare your microSD card, you’ll need a computer with Internet connection and the ability to read and write SD cards, either via a built-in SD card slot or adapter.

  1. Download the Jetson Nano 2GB Developer Kit SD Card Image and note where it was saved on the computer.
  2. Write the image to your microSD card by following the instructions below according to the type of computer you are using: Windows, macOS, or Linux.

Instructions for ChromeOS

Instructions for Windows

Format your microSD card using SD Memory Card Formatter from the SD Association.

  1. Download, install, and launch SD Memory Card Formatter for Windows.
  2. Select card drive
  3. Select “Quick format”
  4. Leave “Volume label” blank
  5. Click “Format” to start formatting, and “Yes” on the warning dialog

Use Etcher to write the Jetson Nano Developer Kit SD Card Image to your microSD card

  1. Download, install, and launch Etcher.
  2. Click “Select image” and choose the zipped image file downloaded earlier.
  3. Insert your microSD card if not already inserted.
    Click Cancel (per this explanation) if Windows prompts you with a dialog like this:
  4. Click “Select drive” and choose the correct device.
  5. Click “Flash!” It will take Etcher about 10 minutes to write and validate the image if your microSD card is connected via USB3.
  6. After Etcher finishes, Windows may let you know it doesn’t know how to read the SD Card. Just click Cancel and remove the microSD card.

After your microSD card is ready, proceed to set up your developer kit.

Instructions for MacOS

You can either write the SD card image using a graphical program like Etcher, or via command line.

Etcher Instructions
  1. Do not insert your microSD card yet.
  2. Download, install, and launch Etcher.
  3. Click “Select image” and choose the zipped image file downloaded earlier.
  4. Insert your microSD card. Click Ignore if your Mac shows this window:
  5. If you have no other external drives attached, Etcher will automatically select the microSD card as target device. Otherwise, click “Select drive” and choose the correct device.
  6. Click “Flash!” Your Mac may prompt for your username and password before it allows Etcher to proceed It will take Etcher about 10 minutes to write and validate the image if your microSD card is connected via USB3.
  7. After Etcher finishes, your Mac may let you know it doesn’t know how to read the SD Card. Just click Eject and remove the microSD card.
Command Line Instructions
  1. Do not insert your microSD card yet. Waiting will help you discover correct disk device name in steps below.
  2. Open the Terminal app:
  3. Use this command to list any external disk devices already attached to your Mac:
    diskutil list external | fgrep '/dev/disk'
    For example, if you already have a USB drive attached to your Mac, the result will look similar to this:
  4. Insert your microSD card. Click Ignore if your Mac shows this window:
  5. Use the same command as before to list external disk devices. The newly listed disk device is the microSD card (/dev/disk2 in this example):
  6. Use this command to remove any existing partitions from the microSD card, ensuring MacOS will let you write to it. BE VERY CAREFUL to specify the correct disk device.
    sudo diskutil partitionDisk /dev/disk<n> 1 GPT 'Free Space' '%noformat%' 100%
    For example:
  7. Use this command to write the zipped SD card image to the microSD card. Note the use of /dev/rdisk instead of /dev/disk:
    /usr/bin/unzip -p ~/Downloads/jetson_nano_devkit_sd_card.zip | sudo /bin/dd of=/dev/rdisk<n> bs=1m
    For example:
  8. There will be no indication of progress (unless you signal with CTRL-t). When the dd command finishes, your Mac will let you know it cannot read the microSD card. Just click Eject:

After your microSD card is ready, proceed to set up your developer kit.

Check

You can either write the SD card image using a graphical program like Etcher, or via command line.

Etcher Instructions
  1. Download, install, and launch Etcher.
  2. Click “Select image” and choose the zipped image file downloaded earlier.
  3. Insert your microSD card. If you have no other external drives attached, Etcher will automatically select the microSD card as target device. Otherwise, click “Change” and choose the correct device.
  4. Click “Flash!” Your OS may prompt for your username and password before it allows Etcher to proceed. It will take Etcher 10-15 minutes to write and validate the image if your microSD card is connected via USB3.
  5. After Etcher finishes, eject the SD Card using Files application:
  6. Physically remove microSD card from the computer.
Command Line Instructions
  1. Open the Terminal application by pressing Ctrl + Alt + t.
  2. Insert your microSD card, then use a command like this to show which disk device was assigned to it:
    In this example, we can see the 16GB microSD card was assigned /dev/sda:
  3. Use this command to write the zipped SD card image to the microSD card:
    /usr/bin/unzip -p ~/Downloads/jetson_nano_devkit_sd_card.zip | sudo /bin/dd of=/dev/sd<x> bs=1M status=progress
    For example: When the dd command finishes, eject the disk device from the command line:
    sudo eject /dev/sd<x>
  4. Physically remove microSD card from the computer.

After your microSD card is ready, proceed to Setup your developer kit.

After your microSD card is ready, proceed to set up your developer kit.

Setup and First Boot

There are two ways to interact with the developer kit: 1) with display, keyboard and mouse attached, or 2) in “headless mode” via connection from another computer.

You can conduct the initial setup either way.

Initial setup with display attachedInitial setup in headless mode
Monitor, keyboard and mouseRequiredNot required
Extra computerNot requiredRequired
Power optionsEither Micro-USB or DC power supply can be usedDC power supply is needed

Initial Setup with Display Attached


  1. Insert the microSD card (with system image already written to it) into the slot on the underside of the Jetson Nano module.
  2. Set the developer kit on a non-conductive surface.
    Operating the developer kit on a conductive surface will short the pins at the bottom of it, damaging the board
  3. Power on your computer display and connect it.
  4. Connect your USB keyboard and mouse using the USB 2.0 ports.
  5. Connect your USB-C power supply (5V⎓3A). The developer kit will power on and boot automatically.

First Boot

A green LED next to the Micro-USB connector will light as soon as the developer kit powers on. When you boot the first time, the developer kit will take you through some initial setup, including:

  • Review and accept NVIDIA Jetson software EULA
  • Select system language, keyboard layout, and time zone
  • Create username, password, and computer name
  • Optionally configure wireless networking
  • Select APP partition size. It is recommended to use the max size suggested
  • Create a swap file. It is recommended to create a swap file

After Logging In

You will see this screen. Congratulations!

Note: Jetson Nano 2GB Developer Kit uses the memory-efficient LXDE desktop environment with Openbox window manager. Check out some basic Openbox info and tips if you are more accustomed to other Linux desktops (or are new to Linux entirely).


Initial Setup in Headless Mode


To complete setup when no display is attached to the developer kit, you’ll need to connect the developer kit to another computer and then communicate with it via a terminal application (e.g., PuTTY) to handle the USB serial communication on that other computer.

Setup Steps

  1. Insert the microSD card (with system image already written to it) into the slot on the underside of the Jetson Nano module.
  2. Set the developer kit on a non-conductive surface.
    Operating the developer kit on a conductive surface will short the pins at the bottom of it, damaging the board
  3. Connect your other computer to the developer kit’s Micro-USB port.
  4. Connect your USB-C power supply (5V⎓3A). The developer kit will power on automatically.
  5. Connect your other computer to the developer kit’s Micro-USB port.
  6. Allow 1 minute for the developer kit to boot.

Instructions for ChromeOS

Instructions for Windows

Locate the correct COM port

Assuming you have already connected your Windows PC to the developer kit’s Micro-USB port, right click the Windows Start icon and select “Device Manager.”

Open the “Ports (COM & LPT)” to find the COM port number for “USB Serial Device” (in this case “COM 16”)

Double click each USB Serial Device entry so you can check its properties. Go to the “Details” tab, and select “Hardware Ids”. If you see VID 0955 and PID 7020, that USB Serial Device for your Jetson developer kit. Note the COM port name (COM16 in this example) for later use.

Open the COM port on PuTTY

PuTTY is one of the most widely used terminal applications for accessing serial consoles. You can use other terminal applications, but if you don’t have any on your Windows PC, you can download PuTTY from here.

Open the PuTTY application. When “Session” is selected in the left “Category” pane, input the COM port name for “Serial line” and “115200” for “Speed”.

Click “Open” to connect to the console.

Instructions for macOS

Locate the tty device

Before connecting to your Jetson developer kit for initial setup, check to see what Serial devices are already shown on your macOS computer.

Connect your macOS computer to the developer kit’s Micro-USB port and run the same command to find what’s newly added.

The new serial device is for your Jetson developer kit.

Screen command

Screen is already installed by default as part of macOS.

Use the device name discovered previously as a command line option for the `screen` command.

Terminate screen

To terminate your screen session, press C-a + k (Ctrl + a, then k), then press y on confirmation.

Check

Locate the tty device

Before connecting to your Jetson developer kit for initial setup, check to see what Serial devices are already shown on your Linux computer.

Connect your Linux computer to the developer kit’s Micro-USB port and run the same command to find what’s newly added.

The new serial device is for your Jetson developer kit.

Screen command

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Install the Screen program on your Linux computer if it is now already available. For example, use this command to install Screen if you are running Ubuntu.

Use the device name discovered previously as a command line option for the `screen` command.

Terminate screen

To terminate your screen session, press C-a + k (Ctrl + a, then k), then press y on confirmation.


Once connected to the developer kit, hit SPACE if the initial setup screen does not appear automatically.

First Boot

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When you boot the first time, the developer kit will take you through some initial setup, including:

  • Review and accept NVIDIA Jetson software EULA
  • Select system language, keyboard layout, and time zone
  • Create username, password, and computer name
  • Optionally configure wireless networking
  • Select APP partition size. It is recommended to use the max size suggested
  • Create a swap file. It is recommended to create a swap file

After Logging In

You will see a standard Linux command line prompt in your serial terminal application. Congratulations!

Next Steps

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Find Your Way Around

Congratulations on setting up your Jetson Nano 2GB Developer Kit!

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The following guides will help you to learn more about the developer kit and setting up your ideal developer environment:

  • Jetson 2GB Developer Kit User Guide
    This page has more details on all the inputs and outputs of the developer kit and how to use them.
    • Your First Jetson Container
      Learn what containers are, and how to download and use them on your developer kit.
    • Setting Up VNC
      Headless mode doesn’t have to mean command line only. Learn how to interact with your developer kit’s Linux desktop from another computer.
    • Connecting Bluetooth Audio
  • NVIDIA AI tutorials and courses
    • Hello AI World
      The classic way to start exploring AI
    • JetBot
      Hands-on, open-source AI robot platform
    • Jetson AI Fundamentals Course
      Get started learning about AI with this practical course
  • Get inspired with the latest Jetson community projects
    Try these great projects to start:
    • Ask and answer questions on the Jetson Nano Forum
  • Jetson Wiki
    • Don’t miss the Jetson Zoo with instructions for installing various open source add-on packages and frameworks for Machine Learning, Computer Vision, Robotics, and more.