LabVIEW displays the VI Path box below the menu. This approach utilizes embedding a simulation solver engine into LabVIEW FPGA Virtual Instrument applications which execute on Field-Programmable Gate Array. The only issue I have found is that the FPGA simulation engine that NI uses appears to not be re-entrant, since I see a huge slowdown when simulataneously simulating more than a few cRIOs this way. From the pull-down menu, select Use Custom VI for FPGA I/O. When I open the latter project, and go to my main cRIO code, the FPGA reference looks a little different, but works in the same way. On the Execution Mode page, select Simulation.
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They are also appropriate for systems with higher manufacturing volumes. In the Project Explorer window, right-click the FPGA target to display the FPGA Target Properties dialog box. They are used in projects that require FPGA capability combined with a small, customized form factor. WireFlow has also substantial experience using single-board RIOs in our projects. With the CompactRIO platform, you can take advantage of FPGA performance, real-time determinism, and reliability with relatively low non-recurring engineering compared with custom hardware design.
![ni fpga simulation ni fpga simulation](https://s3.studylib.net/store/data/009766572_1-35e8ccceebd473d8f0fa5d45327fcee2.png)
Featuring an open embedded architecture and compact size, this flexible, customizable, commercial off-the-shelf (COTS) hardware device is part of an accelerated custom design platform that can help you get your custom embedded control system to market quickly. It is designed for high-volume and OEM embedded control and analysis applications that require high performance and reliability. NI LabVIEW FPGA Vivado 2014. The CompactRIO Single-Board Controller is an embedded control system for rapid commercial development and deployment.