VMIVME-017807-414001 350-0001007807-414001 D Design platform of new version graphics system
VMIVME-017807-414001 350-0001007807-414001 D is a new version of the graphics system design platform for testing, control and development of embedded systems.
Specifically, the platform builds on nearly 10 years of investment in multithreading technology and leverages LabVIEW 8.5 to significantly reduce the programming complexity common to complex control systems based on multi-core and FPGA architectures. The platform supports multi-threaded technology and real-time data streaming, which can help engineers balance multiple measurement and control tasks across multiple processor cores. It also provides deterministic, real-time multi-core tools, new machine monitoring capabilities for desktop and FPGA platforms, and extends OPC connectivity to hundreds of industrial devices.
In addition, VMIVME-017807-414001 350-0001007807-414001 D may also refer to a specific communication VM board or data acquisition control card 2. These products typically feature multi-channel data acquisition capabilities, high resolution, analog and digital input and output capabilities, and are commonly used in a variety of industrial automation and measurement applications such as data acquisition, motion control, instrumentation, and more.
VMIVME-017807-414001 350-0001007807-414001 D is a new version of the graphic system design platform for testing, control and development of embedded systems. The following are its specific functional features:
Multithreading and parallel data flow support: The platform builds on nearly 10 years of investment in multithreading technology and leverages LabVIEW 8.5 to significantly reduce the programming complexity common to complex control systems based on multi-core and FPGA architectures. With LabVIEW’s parallel data flow language, engineers can easily balance multiple measurement and control tasks across multiple processor cores.
Real-time multi-core tools and new machine monitoring capabilities: The platform delivers deterministic real-time multi-core tools, new machine monitoring capabilities for desktop and FPGA platforms, and extends OPC connectivity to hundreds of industrial devices.
Data acquisition and control: The platform may include multi-channel data acquisition capabilities, typically used to capture analog or digital signals, and support analog input and output as well as digital input and output for a variety of applications, including control and measurement.
Real-time data acquisition: The platform is often able to capture data in real time and is suitable for applications that require a fast response.
Communication interface: The platform usually has a communication interface, which can exchange and control data with computers or other devices, and usually supports standard interfaces such as PCI, PCIe, etc.
Programmability: Some modules are programmable and can be programmed to configure and control their behavior to meet different application needs.
Industrial grade design: The platform usually has an industrial grade design and is capable of stable operation under harsh environmental conditions such as high temperature, humidity and vibration.
In addition, according to the system engineer, the VMIVME-017807-414001 series is also responsible for ensuring that the plant’s process automation and related systems are kept up to date, making it possible to dynamically update applications and upgrade control system hardware without ceasing operations.