NI LabVIEW NXG 3.0.0 | 21.0 Gb
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National Instruments, announced that it has released the new version of LabVIEW NXG software, LabVIEW NXG 3.0. Use this software to automate table measurements using NI data acquisition hardware and tabletop instruments.
New features of LabVIEW NXG 3.0.0:
Code Implementation and Distribution
– Add your hardware configuration to a distribution: after configuring your hardware system in SystemDesigner, go to the Distribution document and add the hardware configuration that your project needs to run on an implemented system.
– Include a start screen for an application: it shows a start screen that contains load information when the application starts.
Desktop user interface controls
– Automatically create the panel of a subVI: the panel automatically includes the corresponding controls and indicators when creating a subVI from a selection.
– View status in a data grid control: use the Status indicator column type to display the status of a test or procedure using status and text indicator icons.
– View numeric data in a table control: transfer and format an array of 2D numbers in a table control.
– Decorations and controls of data placeholder: decorate the user interface and represent a reference to the elements of the panel, the VI and the programming environment. This palette contains the following two subpalettes:
. Shape controls: decorate the user interface with lines or shapes.
. Data placeholder controls: represent a reference to the elements of the panel, the VIs and the programming environment whose behavior and properties can be controlled and passed on to other VIs.
Interoperability of third-party software and code integration
– Include the .NET code registered in your application. Create a .NET interface document (.dni) to call the existing .NET assemblies registered in the global assembly cache (GAC) in your application.
– Call MATLAB functions or scripts in your application. Use an interface for the MATLAB document (.mli) to define calls to a MATLAB file (.m or .mlx) in your application.
– View custom content on the home screen: when LabVIEW NXG starts for the first time, select your industry to view the recommended examples and tutorials related to your selection.
– Include package dependencies when sharing a project: use the Package Dependencies document to capture a list of packages used by a project so that you can configure a development system with the necessary packages.
– View data from previous VI execution cables: Set up probes to retain the cable values in a diagram so that you can see and analyze the data that flowed through a cable during the most recent VI execution.
– See the hierarchy of VIs in your application: open a call hierarchy document to see the relationships between the VIs and subVIs in your application.
– View the inheritance of a class: open the class hierarchy document to see the class hierarchy and understand the class relationships between them in your application.
– Drag and drop source files: drag a source file from Windows Explorer to the Project Files tab or to the panel or diagram of a VI. The source file will be added to the Links section of your project tree.
– Create a SystemDesigner report: capture your hardware system as a CSV file to retain or share. You can create a SystemDesigner report from Live View or Design view.
– Manage and modify add-in libraries: create a duplicate of an add-on in your project's folder and customize the duplicate add-on to use in your project. You can use the Project document to manage if your project refers to the original add-on or the duplicate add-on.
LabVIEW NXG 3.0.0 Behavior changes:
– UTF-8 coding: the length and displacement inputs and outputs of the following chain nodes now work on the basis of characters instead of bytes. A character refers to a code point, a numerical unit between 0 and 10FFFF16, defined by the Unicode standard for coding. To learn more about code points, research Unicode.
. Match pattern
. Match the regular expression
. Replace substring
. Scan string for Tokens
. Scan from Chain
. Search and replace pattern
. Search and replace regular expressions
. Search and replace chain
. Search / Split String
. Rope length
. Subset of strings
. Decimal string to number
. Hexadecimal string to number
. Floating point string to number
. Octal to number string
Note: Passing data other than correctly encoded UTF-8 string data to these nodes can generate errors or unexpected behavior.
– The MathScript node is not compatible with LabVIEW NXG 3.0: use an interface for MATLAB to call MATLAB functions or scripts. See Migrating from the MathScript node to the MATLAB interface for instructions on how to migrate the source code that contains a MathScript node.
About LabVIEW NXG. LabVIEW NXG is the next generation of LabVIEW, assisting engineering workflows with the acquisition, analysis and interactive visualization of datasets. Combined with the integrated development of the drag-and-drop engineering user interface and the inherent data exploration, LabVIEW NXG is the ideal tool for converting data collection into real information.
LabVIEW NXG and LabVIEW share a common architecture and compiler: the compiler G. However, they have different common ends and bases, but none is a superset of the other. LabVIEW NXG is the next generation of LabVIEW and will eventually become the standard for LabVIEW once it becomes a superset of LabVIEW features. One of the biggest differences is the improvement in user experience, especially for new users and new projects. LabVIEW. LabVIEW NXG has the ability to recognize third-party hardware and automatically download and install the necessary drivers, something that LabVIEW does not. But the tools to implement software with certain hardware such as LabVIEW Real-Time Module, LabVIEW FPGA Module and CompaqRIO platform are not available in LabVIEW NXG.
LabVIEW NXG has also been optimized to simplify the customization of test and measurement systems. The new drag-and-drop UI creation editor focuses on reducing development time for common tasks. Users who are not familiar with LabVIEW will appreciate the new help content that now comes with interactive lessons and associated sample programs. NXG also comes with a migration utility to convert LabVIEW projects into LabVIEW NXG counterparts. A similar utility does not exist in LabVIEW. The one-way data flow provided by NI clearly indicates that LabVIEW NXG is the company's vision of the future.
LabVIEW NXG also provides users with an easier way to publish web VIs or web clients that can be used from standard browsers. This would allow someone to run and validate the test remotely from a different computer's browser. The new compiler can convert block diagrams into JAVA scripts instead of just machine code.
It is clear that LabVIEW NXG is the next generation of LabVIEW and will eventually become the only incarnation of LabVIEW.
On national instruments. Since 1976, National Instruments has equipped engineers and scientists with tools that accelerate productivity, innovation and discovery. The graphic design approach of the NI engineering system provides an integrated software and hardware platform that accelerates the development of any system that needs measurement and control. The company's long-term vision and its focus on improving society through its technology supports the success of its customers, employees, suppliers and shareholders.
Product: NI LabVIEW
Version: NXG 3.0.0_18.104.22.168152-0 + f0
Supported architectures: x64
Homepage of the website:
Language: English, Français, Deutsch, 日本語, 한국어, 中文
System Requirements: personal computer
Supported operating systems: *
Size: 21.0 Gb
* Review the system requirements
LabVIEW NXG 3.0 has the following requirements:
– Pentium 4 G1 equivalent (recommended Intel i5 or higher)
– At least 8.5 GB of disk space.
– 1 GB of RAM
– .NET Framework 4.6.2
– Resolution of 1024 x 768 (recommended 1366 x 768 or higher)
Supported operating systems
LabVIEW NXG 3.0 supports the following systems:
– 64-bit version of Windows 10 (version 1803) /8.1 Update 1 * / 7 SP1 **
Windows Embedded Standard 7 SP1 **
Windows Server 2012 R2 *
Windows Server 2008 R2 SP1 **
* NI software installs VC2015 Runtime and .NET 4.6.2. Windows 8.1 and Windows Server 2012 R2 require Microsoft updates to support these elements. See Microsoft KB2919442 and KB2919355 for more information on how to install these updates.
* * The NI software is signed with a SHA-256 certificate. Windows 7 SP1 and Windows Embedded Standard 7 SP1 require Microsoft updates to support SHA-256. See Microsoft KB3033929 for more information about how to install this security update.
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