Maximizing System Performance下载PDF选定部分选定部分和子部分整个手册更新时间2025-04-08阅读时长1分钟VeriStandUser Manual Increase the efficiency of VeriStand by following best practices for your system definition, controllers, hardware, models, and reflective memory. Streamlining the System DefinitionDecrease the complexity of your system definition by removing unused hardware I/O channels, maximizing the Convert Clock rate for multiplex sampling DAQ devices, and using hardware timing.Configuring the BIOS Settings of the ControllerIncrease the performance of your real-time controller by enabling turbo boost and reducing the number of enabled cores.Configuring the Ethernet Settings of the ControllerIncrease the performance of your real-time controller by using line interrupt packet detection.Optimizing Hardware PerformanceIncrease the performance of your VeriStand system by using hardware timing, simultaneous sampling, USB CAN devices, PXIe devices, and not using Real-Time Hypervisor.Improving Model PerformanceIncrease model performance by consolidating small models and preallocating arrays for LabVIEW models.Optimizing Reflective MemoryImprove the use of your reflective memory usage by reducing the dynamic data size, creating channel mappings between targets, and using data channels selectively with non-VeriStand systems.Parent topic: Debugging the System
Increase the efficiency of VeriStand by following best practices for your system definition, controllers, hardware, models, and reflective memory. Streamlining the System DefinitionDecrease the complexity of your system definition by removing unused hardware I/O channels, maximizing the Convert Clock rate for multiplex sampling DAQ devices, and using hardware timing.Configuring the BIOS Settings of the ControllerIncrease the performance of your real-time controller by enabling turbo boost and reducing the number of enabled cores.Configuring the Ethernet Settings of the ControllerIncrease the performance of your real-time controller by using line interrupt packet detection.Optimizing Hardware PerformanceIncrease the performance of your VeriStand system by using hardware timing, simultaneous sampling, USB CAN devices, PXIe devices, and not using Real-Time Hypervisor.Improving Model PerformanceIncrease model performance by consolidating small models and preallocating arrays for LabVIEW models.Optimizing Reflective MemoryImprove the use of your reflective memory usage by reducing the dynamic data size, creating channel mappings between targets, and using data channels selectively with non-VeriStand systems.Parent topic: Debugging the System
Increase the efficiency of VeriStand by following best practices for your system definition, controllers, hardware, models, and reflective memory. Streamlining the System DefinitionDecrease the complexity of your system definition by removing unused hardware I/O channels, maximizing the Convert Clock rate for multiplex sampling DAQ devices, and using hardware timing.Configuring the BIOS Settings of the ControllerIncrease the performance of your real-time controller by enabling turbo boost and reducing the number of enabled cores.Configuring the Ethernet Settings of the ControllerIncrease the performance of your real-time controller by using line interrupt packet detection.Optimizing Hardware PerformanceIncrease the performance of your VeriStand system by using hardware timing, simultaneous sampling, USB CAN devices, PXIe devices, and not using Real-Time Hypervisor.Improving Model PerformanceIncrease model performance by consolidating small models and preallocating arrays for LabVIEW models.Optimizing Reflective MemoryImprove the use of your reflective memory usage by reducing the dynamic data size, creating channel mappings between targets, and using data channels selectively with non-VeriStand systems.Parent topic: Debugging the System