NI LabVIEW 8.6 Meets Parallel Programming Challenge to Drive Performance

4th August 2008
Posted By : ES Admin
NI LabVIEW 8.6 Meets Parallel Programming Challenge to Drive Performance
National Instruments today announced LabVIEW 8.6, the latest version of the graphical system design software platform for control, test and embedded system development. Building on the inherent parallel nature of graphical programming, LabVIEW 8.6 delivers new tools to help engineers and scientists take advantage of the benefits of multicore processors, field-programmable gate arrays (FPGAs) and wireless communication.
To take advantage of these technologies, engineers currently are forced to work with multiple tools which are not designed for parallel programming. By using the latest version of LabVIEW, engineers now have a single platform to increase test and control system throughput with multicore processors, reduce the development time of high-performance FPGA-based advanced control and embedded prototyping applications and more easily create distributed measurement systems to acquire data remotely.

“To meet the performance and efficiency demands of cutting-edge applications from robotics to designing hybrid vehicles, users must have the ability to quickly incorporate the latest technologies such as multicore processors, FPGAs and wireless communication,” said Dr. James Truchard, President, CEO and Cofounder of National Instruments. “LabVIEW offers the shortest path to apply these technologies using parallel programming while providing users the flexibility to define their solutions with application-specific optimisations.”

Achieve Supercomputing with Multicore Processors
The opportunity for breakthrough performance in test and measurement systems increases as standard systems gain more processing cores. Expanding on the built-in multithreading technology of the LabVIEW platform, the new version offers supercomputing performance through multicore-optimised features which can help engineers process increasing amounts of measurement data to meet advanced control application challenges and increase test system throughput.

To increase performance, LabVIEW 8.6 includes more than 1,200 newly-optimised advanced analysis functions that offer faster, enhanced math and signal processing on multicore systems for control and test applications. Vision applications also can benefit from multicore systems by using innovative image processing functions included in the NI Vision Development Module for LabVIEW 8.6 that automatically distributes data sets across multiple cores. Also using new multicore features, test engineers can develop applications to test wireless devices up to four times faster with the latest version of the NI Modulation Toolkit for LabVIEW and control system engineers can execute simulation models in parallel up to five times faster with the LabVIEW 8.6 Control Design and Simulation Module. Additionally, engineers can now better identify parallel sections of code using a new feature that reorganises LabVIEW diagrams.

Add FPGA Technology to an Application - No Digital Design Expertise Required
With the intuitive dataflow paradigm of LabVIEW, engineers can use the LabVIEW FPGA Module and FPGA-based commercial off-the-shelf (COTS) hardware such as NI CompactRIO to customise measurement and control systems for increased performance in applications such as semiconductor validation and advanced machine control. LabVIEW 8.6 continues to make FPGAs more accessible to domain experts without experience in low-level hardware description languages or board-level design.

LabVIEW 8.6 further reduces FPGA-based development time with new features that engineers can use to program CompactRIO programmable automation controllers (PACs) directly without having to separately program the FPGA. In addition, new simulation features reduce the number of time-consuming compilations by validating an FPGA application on the desktop. LabVIEW 8.6 also offers new IP development and integration features including the new fast Fourier transform (FFT) IP core to offload spectral analysis functions which increases the performance in applications such as machine condition monitoring and RF test and the new Component-Level IP (CLIP) Node to easily import existing or third-party IP into LabVIEW FPGA, further opening the LabVIEW platform.

Acquire and Analyse Data From Remote Systems With Wireless Technology
As wireless technology advances, engineers have the opportunity to take measurements in isolated locations. Using wireless technology with LabVIEW 8.6, engineers can extend applications into new areas of data acquisition, such as environmental and structural monitoring. The flexibility of LabVIEW graphical programming and the ubiquity of Wi-Fi network infrastructure make it easy to incorporate wireless connectivity into new or existing PC-based measurement and control systems.

With support for the latest wireless data acquisition devices and drivers for more than 20 third-party wireless sensors, LabVIEW 8.6 simplifies programming of distributed measurement systems with a single software platform. Engineers can now configure data acquisition applications easily to use NI Wi-Fi data acquisition (DAQ) hardware without making code changes in LabVIEW 8.6. New 3-D visualisation tools in LabVIEW 8.6 help engineers integrate remote measurements with design models to accelerate design validation.

Interact with LabVIEW Applications Using Any Web-Enabled Device
As constant connectivity and accessibility between people and systems becomes more prevalent, engineers need to be able to use the web to interact with systems from any location on a variety of devices. With LabVIEW 8.6, engineers can now convert LabVIEW applications into Web Services on desktop and real-time hardware that they can access from any web-enabled device such as smart phones and PCs. With this feature, engineers can develop remote user interfaces for their LabVIEW applications using standard web technologies such as HTML, JavaScript and Flash.

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