How to Download LabVIEW 2018
LabVIEW is a graphical programming environment that engineers use to develop automated test, measurement, and control systems. LabVIEW 2018 is the latest version of this software, which offers new features and enhancements to help you create high-performance applications faster and easier. In this article, we will show you how to download LabVIEW 2018, how to install it on your computer, and how to get started with your first project.
What is LabVIEW 2018 and why you should download it
LabVIEW 2018 is the most recent release of LabVIEW, which was launched in May 2018. It is compatible with Windows, Mac OS X, and Linux operating systems. LabVIEW 2018 has several advantages over previous versions, such as:
download labview 2018
Native tools for IP reuse with less recompilation, ease code distribution, automate build and software execution, simplify the creation of complex FPGA algorithms, and take advantage of new compilation tools supported under Windows 10
Python code call using a Python node
Reduced effort during LabVIEW version updates by backward compatibility of the LabVIEW Run-Time engine
Improved data analysis and signal processing tools
Enhanced web development capabilities with G Web Development Software
Access to thousands of instrument drivers, analysis functions, interactive display elements, and industry-standard protocols
If you want to build automated test systems that require data acquisition, instrument control, data analysis, data visualization, or communication with other devices or applications, LabVIEW 2018 is the ideal software for you. You can download it from the NI website or use one of the options below.
Download options for LabVIEW 2018
There are three main ways to download LabVIEW 2018:
Web-based installer
The web-based installer is the easiest and fastest way to download LabVIEW 2018. It allows you to install only the components that you need, and it automatically downloads the latest updates and patches. To use the web-based installer, follow these steps:
Go to the on NI.com.
Select the edition that you want to download (Base, Full, or Professional).
Click on Download.
Save the file to your computer and run it.
Follow the instructions on the screen to install LabVIEW 2018.
Offline installer
The offline installer is a large file that contains all the components of LabVIEW 2018. It is useful if you want to install LabVIEW on multiple computers or on a computer that does not have internet access. To use the offline installer, follow these steps:
Go to the and search for "LabVIEW offline installer".
Select the edition that you want to download (Base, Full, or Professional).
Click on Download.
Save the file to your computer and run it.
Follow the instructions on the screen to install LabVIEW 2018.
NI Package Manager
The NI Package Manager is a tool that helps you manage your NI software products. It allows you to install, update, uninstall, and repair your NI software. It also lets you download LabVIEW 2018 and its modules and toolkits. To use the NI Package Manager, follow these steps:
Go to the and click on Download.
Save the file to your computer and run it.
Follow the instructions on the screen to install the NI Package Manager.
Launch the NI Package Manager and sign in with your NI account.
Search for LabVIEW 2018 and select the edition that you want to download (Base, Full, or Professional).
Click on Install and follow the instructions on the screen to install LabVIEW 2018.
Installation steps for LabVIEW 2018
After you download LabVIEW 2018 using one of the options above, you need to install it on your computer. The installation steps may vary depending on the edition and the installer that you use, but they generally follow this sequence:
Run the installer and choose the edition
The first step is to run the installer that you downloaded. You may need to accept the license agreement and enter your serial number. Then, you will be asked to choose the edition of LabVIEW 2018 that you want to install. You can choose from:
How to download labview 2018 from NI.com
LabVIEW 2018 web-based installer download
LabVIEW 2018 runtime download
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LabVIEW 2018 activation code
LabVIEW 2018 free trial download
LabVIEW 2018 student edition download
LabVIEW 2018 professional development system download
LabVIEW 2018 community edition download
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LabVIEW 2018 SP1 patch download
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LabVIEW 2018 toolkit and module downloads
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LabVIEW 2018 examples and tutorials
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LabVIEW 2018 desktop execution trace toolkit download
LabVIEW 2018 VI analyzer toolkit download
LabVIEW 2018 report generation toolkit for Microsoft Office download
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LabVIEW 2018 embedded module for ARM microcontrollers download
LabVIEW 2018 embedded module for TI MSP430 microcontrollers download
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LabVIEW 2018 wireless sensor network module download
LabVIEW 2018 DSC module (run-time) download
LabVIEW 2018 Modbus library (API) download
LabVIEW 2018 OPC UA toolkit (API) download
Download labview NXG in addition to labview 2018
Download labview NXG web module in addition to labview NXG
Base: This edition provides basic functionality for creating applications with LabVIEW. It includes data acquisition, instrument control, data analysis, data visualization, and communication features.
Full: This edition provides all the features of the Base edition plus additional tools for advanced programming and debugging. It includes code editing, code documentation, code analysis, code generation, code deployment, code testing, and code management features.
Professional: This edition provides all the features of the Full edition plus additional tools for professional development and deployment. It includes application builder, unit test framework, VI analyzer toolkit, desktop execution trace toolkit, database connectivity toolkit, report generation toolkit, and more.
Select the edition that suits your needs and click on Next.
Activate the product and select the modules
The next step is to activate your product using your serial number or your NI account. Activation is required to use LabVIEW 2018 without any limitations or interruptions. After activation, you will be able to select the modules and toolkits that you want to install with LabVIEW 2018. Modules and toolkits are optional components that extend the functionality of LabVIEW for specific applications or domains. Some of the most popular modules and toolkits are:
LabVIEW Control Design and Simulation Module: This module helps you design, simulate, implement, and test control systems using LabVIEW.
LabVIEW FPGA Module: This module helps you program field-programmable gate arrays (FPGAs) using LabVIEW graphical code.
LabVIEW MathScript RT Module: This module helps you integrate text-based math scripts into LabVIEW graphical code.
LabVIEW Real-Time Module: This module helps you create reliable and deterministic applications that run on real-time operating systems.
LabVIEW Vision Development Module: This module helps you develop image processing and machine vision applications using LabVIEW.
LabVIEW NXG Web Module: This module helps you create web-based user interfaces for your LabVIEW applications using G Web Development Software.
Select the modules and toolkits that you want to install and click on Next.
Configure the settings and preferences
The final step is to configure the settings and preferences for your LabVIEW installation. You can customize various aspects of LabVIEW such as:
The installation directory
The start menu folder
The desktop shortcut
The file associations
The default language
The automatic updates
The user feedback options
Make sure that you review the settings and preferences before clicking on Install. The installation process may take several minutes depending on your system configuration and internet speed. When the installation is complete, click on Finish.
Getting started with LabVIEW 2018
Congratulations! You have successfully installed LabVIEW 2018 on your computer. Now you are ready to start creating your own applications with this powerful software. Here are some tips to help you get started:
Launch LabVIEW and explore the environment
To launch LabVIEW, you can double-click on the desktop shortcut or the start menu icon. You will see the LabVIEW splash screen and then the LabVIEW environment. The LabVIEW environment consists of several components, such as:
The Getting Started window: This window provides quick access to common tasks, such as creating a new project, opening an existing project, browsing examples, and learning more about LabVIEW.
The Project Explorer window: This window shows the files and resources that belong to your project, such as virtual instruments (VIs), libraries, folders, and documents. You can use this window to organize and manage your project.
The Front Panel window: This window shows the user interface of your VI, which consists of controls and indicators. Controls are the inputs that you use to interact with your VI, such as buttons, knobs, and switches. Indicators are the outputs that display the results of your VI, such as graphs, charts, and LEDs.
The Block Diagram window: This window shows the graphical code of your VI, which consists of nodes and wires. Nodes are the functions that perform operations on data, such as arithmetic, logic, and analysis. Wires are the connections that transfer data between nodes.
The Toolbar: This toolbar contains buttons that allow you to run, stop, debug, and save your VI.
The Tools Palette: This palette contains tools that allow you to edit and modify your VI, such as the cursor, the probe, the breakpoint, and the alignment.
Take some time to explore the LabVIEW environment and familiarize yourself with its components. You can also use the Help menu or press F1 to access the LabVIEW Help system, which provides detailed information and guidance on how to use LabVIEW.
Create a simple VI and run it
One of the best ways to learn LabVIEW is to create a simple VI and run it. A VI is a modular unit of code that can be reused and combined with other VIs to create larger applications. A VI consists of a front panel and a block diagram. To create a simple VI that adds two numbers and displays the result, follow these steps:
In the Getting Started window, click on Blank VI to create a new VI.
In the Front Panel window, right-click on an empty space and select ControlsNumericNumeric Control from the shortcut menu. This will create a numeric control on the front panel. Repeat this step to create another numeric control.
In the Front Panel window, right-click on an empty space and select IndicatorsNumericNumeric Indicator from the shortcut menu. This will create a numeric indicator on the front panel.
In the Block Diagram window, you will see that each control and indicator has a corresponding terminal. Terminals are the points where data enters or exits a VI.
In the Block Diagram window, right-click on an empty space and select FunctionsArithmetic & ComparisonNumericAdd from the shortcut menu. This will create an add node on the block diagram. An add node has two inputs (x and y) and one output (sum).
In the Block Diagram window, use the wiring tool from the Tools Palette to connect the terminals of the controls to the inputs of the add node, and connect the output of the add node to the terminal of the indicator.
In the Toolbar, click on Run button (the white arrow) to run your VI. You will see that your front panel becomes active and you can enter values in the controls. The indicator will display the sum of those values.
Congratulations! You have created your first VI in LabVIEW 2018. You can experiment with different values in the controls and observe how they affect the indicator. You can also modify your VI by adding more controls, indicators, nodes, or wires.
Learn more with tutorials and resources
LabVIEW 2018 is a powerful software that offers many features and capabilities for creating automated test systems. To learn more about LabVIEW 2018 and how to use it effectively, you can take advantage of various tutorials and resources available online or offline. Some of them are:
The LabVIEW Tutorial: This tutorial is included in LabVIEW 2018 and provides an introduction to LabVIEW concepts and techniques. You can access it from HelpFind ExamplesBrowseGetting StartedLabVIEW Tutorial.
The LabVIEW Examples: These examples are included in LabVIEW 2018 and demonstrate how to use various features and functions of LabVIEW for different applications and domains. You can access them from HelpFind Examples or from FileOpen Example.
The NI Learning Center: This website provides free online courses, videos, webinars, articles, and quizzes that cover various topics and levels of LabVIEW. You can access it from .
The NI Community: This website provides a platform for LabVIEW users to ask questions, share ideas, exchange tips, and collaborate with other users and experts. You can access it from .
The NI Support: This website provides technical support and resources for LabVIEW users, such as documentation, downloads, troubleshooting, and service requests. You can access it from .
These are just some of the many tutorials and resources that you can use to learn more about LabVIEW 2018 and improve your skills. You can also find more information and guidance on the NI website or the LabVIEW Help system.
Conclusion
LabVIEW 2018 is a graphical programming environment that allows you to create automated test systems with ease and efficiency. In this article, we showed you how to download LabVIEW 2018, how to install it on your computer, and how to get started with your first project. We also provided you with some tips and resources to help you learn more about LabVIEW 2018 and its features. We hope that you found this article useful and informative. If you have any questions or feedback, please feel free to leave a comment below or contact us through our website. Thank you for reading and happy programming!
FAQs
Here are some frequently asked questions about LabVIEW 2018:
Q: How much does LabVIEW 2018 cost?
A: LabVIEW 2018 has different pricing options depending on the edition, the license type, and the duration. You can check the current prices on the . You can also download a free trial version of LabVIEW 2018 for 7 days or request a quote from NI.
Q: What are the differences between LabVIEW 2018 and LabVIEW NXG?
A: LabVIEW 2018 and LabVIEW NXG are two versions of LabVIEW that have different features and capabilities. LabVIEW 2018 is the latest version of the traditional LabVIEW that has been used for decades by engineers and scientists. LabVIEW NXG is a newer version of LabVIEW that has a modernized user interface, simplified workflows, and enhanced web development tools. Both versions are compatible with each other and can be used together in the same project. You can learn more about the differences between LabVIEW 2018 and LabVIEW NXG on the .
Q: How can I migrate my existing projects from previous versions of LabVIEW to LabVIEW 2018?
A: You can migrate your existing projects from previous versions of LabVIEW to LabVIEW 2018 using the Save for Previous Version feature. This feature allows you to save your VIs in a format that is compatible with older versions of LabVIEW. You can access this feature from FileSave for Previous Version or from ToolsAdvancedSave for Previous Version. You can also use the Mass Compile feature to update all the VIs in a folder or a project to the current version of LabVIEW. You can access this feature from ToolsAdvancedMass Compile.
Q: How can I share my projects with other users or devices using LabVIEW 2018?
A: You can share your projects with other users or devices using various methods in LabVIEW 2018, such as:
The Application Builder: This tool allows you to create standalone executables or installers that contain your VIs and their dependencies. You can use this tool to distribute your applications to other computers or devices that have the same or compatible operating system as yours.
The Web Module: This tool allows you to create web-based user interfaces for your VIs using G Web Development Software. You can use this tool to publish your applications to a web server or a cloud service and access them from any device that has a web browser.
The VI Server: This feature allows you to communicate with other VIs or applications using TCP/IP protocols. You can use this feature to send or receive data, commands, or events between different instances of LabVIEW or between LabVIEW and other software.
Q: How can I optimize the performance of my VIs in LabVIEW 2018?
A: You can optimize the performance of your VIs in LabVIEW 2018 using various techniques and tools such as:
The VI Analyzer Toolkit: This tool allows you to analyze your VIs for style, performance, and best practices. You can use this tool to identify and fix potential issues or errors in your code, such as memory leaks, data type conversions, or unnecessary loops.
The Desktop Execution Trace Toolkit: This tool allows you to monitor and debug the execution of your VIs in real time. You can use this tool to measure the CPU usage, memory usage, and execution time of your VIs, as well as to trace the data flow and event sequences of your VIs.
The Code Optimization Techniques: These are some general guidelines and best practices that you can follow to improve the efficiency and speed of your VIs, such as using subVIs, parallel loops, shift registers, local variables, or arrays.
You can learn more about these techniques and tools on the or the LabVIEW Help system. 44f88ac181