FBM232 P0926GW Ethernet Communication Module

FBM232 P0926GW Ethernet Communication Module

FBM232 P0926GW is the latest version of the graphical system design platform for test, control and embedded system development. Building on nearly a decade of investment in multi-threaded technology, LabVIEW 8.5 significantly reduces the programming complexity common to complex control systems based on multi-core and FPGA architectures. With LabVIEW’s parallel dataflow language, engineers can easily balance multiple measurement and control tasks across the multiple processor cores available on today’s standard PC platforms. To improve performance and reliability, LabVIEW 8.5 provides deterministic, real-time multicore tools; new machine monitoring capabilities for desktop and FPGA platforms; and extends OPC connectivity to hundreds of industrial devices. With the shift to multicore processors on the PC, LabVIEW programmers benefit from a simplified graphical multithreading approach that allows them to maximise the performance of multicore technology with few or no code changes.” Designers of industrial machines, robots mechatronics systems and industrial control applications can gain performance gains from multi-core technology by balancing parallel tasks such as control loops, measurements and industrial communications across multiple processing cores.

FBM232 P0926GW is commonly used to design state machines to model the behaviour of real-time and embedded systems to describe event occurrences and responses for the design of digital communication protocols, machine controllers, and system protection applications.LabVIEW 8.5 adds a new statechart module to help engineers design statechart diagrams using a Unified Modelling Language (UML)-based standard. familiar high-level statechart notation to design and model these event-based systems. Because the LabVIEW Statechart Module is based on the LabVIEW Graphics Programming Language, engineers can rapidly design, prototype, and deploy their systems on a single platform, combining familiar statechart representations with actual I/O running on deterministic real-time or FPGA-based systems. Unlike text-based sequential programming tools, LabVIEW’s parallel dataflow language with built-in multithreading capabilities naturally divides tasks across multiple processors. The latest version of LabVIEW improves performance with deterministic real-time multithreading, improved thread-safe I/O drivers, and automatic scaling based on the total number of available processing cores.