LabVIEW is a platform designed for systems and a graphical development environment for engineers. The full form of it is the Lab’s Virtual Machine Engineering Workshop. National Instruments developed it only to communicate via GPIB. But it is updated day by day and has been extensively expanded to control test equipment.
Today, it is implemented in almost every design field when production is disrupted for pilot testing. Nowadays, it is used for various purposes such as automated testing applications, general data acquisition, FPGA programming, etc.
LabVIEW allows various GUI elements to provide the required flow. It also allows programming in G, a graphical programming language. The software is developed and mixed with the G language. Therefore, it can provide other functions such as automatic multi-threading, device management, debugging, and system design interface.
If you want to understand the programming and software development of LabVIEW, this content will be useful. We have provided detailed information about LabVIEW, including basic concepts, advantages, applications, working principles, and more.
LabVIEW Editions and Key Concepts:
LabVIEW contains many basic elements and concepts based on the looking and operation of the environment. This includes the LabVIEW environment, LabVIEW VI (virtual tool), LabVIEW G programming, LabVIEW data flow, and more.
Three versions of LabVIEW are available. It is also a part of the Test Workflow package that allows you to meet your application requirements. You can purchase this workflow package as a 1-year subscription with access to online training, title engineers for technical support, and software updates.
Benefits of standardization on LabVIEW:
LabVIEW provides thousands of analysis functions and also provides interactive and configurable display elements. It can be easily communicated in other languages.
Over the past three decades, LabVIEW has been the tool of choice for engineers to develop many useful programs, such as developing space missions. Engineering performance is also built on development time, downtime, and in-use code reuse.
LabVIEW is suitable for most computer systems, and you can easily run LabVIEW on Windows, OS X (Apple), and Linux. LabVIEW can constantly increase your productivity with new features. Therefore, you can improve interoperability with Python and MATLAB for FPGA applications and software architecture.
But not all programmers can run LabVIEW correctly. Therefore, expert LabVIEW programmers are very important for complex tasks related to computer vision, artificial intelligence, advanced algorithms, custom driver development, etc.
How does LabVIEW work?
There are one or more virtual instruments (VIs) in LabVIEW. LabVIEW software is known as VI because it refers to actual physical instruments in their appearance and operation.
A VI contains three main parts: a front panel, block diagram, and icon.
The front panel contains knobs, graphics, knobs, and many other controls and indicators.
The controls are user input, and indicators are program output. The user can enter data using the mouse and keyboard. The block diagram computes the data, and then the results of the program are displayed on the screen.
Applications of LabVIEW
LabVIEW provides multiple applications on a powerful platform for users. Although it started as a test planning management environment, the applications have grown significantly since its inception. It is widely used in the field of graphical test management language, graphical system design environment, and graphical development projects.
It can be used for equipment control, various data acquisition, and large project system design. It also has applications in radio frequency circuits, green technologies, biochemical equipment, automobile development simulation, and many more.
Conclusion:
LabVIEW’s graphical interface is flexible and easy to use. It can interact with C/C++, VB, Fortran, etc. You can easily do any kind of graphic design or development work. I hope we can give you essential insight into LabVIEW.
