The building block of all LabVIEW NXG applications is a Virtual Instrument (VI). The VI is a LabVIEW NXG program that has two components: the panel and diagram. The panel is the user interface for With the simulation loop structure of the LabVIEW Control Design and Simulation Module, you can represent continuous-time or discrete-time systems in standard block diagram form. You also can note Figure 1. Example Block Diagram Integrating Text-Based Math with G Code in LabVIEW In addition to graphical programming, LabVIEW offers math-oriented textual programming through a native compiler for The following block diagram demonstrates how to apply the coefficients computed for a finite impulse response (FIR) filter in LabVIEW Full or Professional Development System to create a digital FIR In addition to importing source code onto a LabVIEW NXG block diagram, you can reuse existing applications and algorithms developed in other languages by calling them from a LabVIEW NXG application. In LabVIEW, you solve your engineering problem as if you were drawing a block diagram on paper. Modern multicore processors make LabVIEW an even more favorable choice as a programming tool because of .
In LabVIEW, task parallelism is achieved by having parallel portions of code on your block diagram. The advantage of LabVIEW is that you can "see" the parallelism in your code and easily separate .
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