Does your idea apply to LabVIEW in general? Get the best feedback by posting it on the original LabVIEW Idea Exchange.
Browse by label or search in the LabVIEW Real-Time Idea Exchange to see if your idea has previously been submitted. If your idea exists be sure to vote for the idea by giving it kudos to indicate your approval!
If your idea has not been submitted click New Idea to submit a product idea to the LabVIEW Real-Time Idea Exchange. Be sure to submit a separate post for each idea.
Watch as the community gives your idea kudos and adds their input.
As NI R&D considers the idea, they will change the idea status.
Give kudos to other ideas that you would like to see in a future version of LabVIEW Real-Time!
This would be implemented on RT Targets such as cRIO or WSN controllers. The purpose would be to significantly decrease the amount of power used by a controller when it is idling. A typical application would be remote field deployements of controllers programmed as either data loggers or WSN controller node. Competing products offer much lower power consumption than a cRIO or WSN controller. If the RT controller could be put to sleep, with a watchdog timer for instance to set the awake timing power could be conserved.
At the moment the only way around this is to have a third party device applying power to the controller...
It would be very useful that RT FIFOs could be of type lvclass as long as the class' private members are of static types (perform the same check that is done for clusters when you try to use them as the type for RT FIFOs).
Inspired by this post, and my own experience trying to debug a problem that only appeared when I compiled an RT executable, LabVIEW should warn the user when compiling a real-time application that contains property nodes that require access to the front panel, since those property nodes will not execute properly in an RT application and it can be very difficult to find the source of the problem if you don't know this.
Create an RT FIFO Primative similar to the Get Queue Status VI that returns the number of elements in the RT FIFO. Currently RT FIFO Read and RT FIFO Write return the number of elements in the RT FIFO, but calling these VIs will affect the contents of RT FIFO.
A workaround for this would be to maintain a count on a shift register and increment/decrement it each time the RT FIFO Write/RT FIFO Read VIs are called. This solution does not work when trying to monitor the size of an RT FIFO in a running VI in another VI that is used to detect memory leaks.