Field Precision LLC has developed novel software technology to generate accurate results for real-world design problems in minutes. A prevailing view of three-dimensional finite-element software is that run times may extend from hours to days.
Field Precision 3D high-speed FEM simulation programs have run times measured in minutes. Applications for Windows computers include high-voltage engineering, magnet design, electron guns and X-ray devices.
High-speed operation is the result of a combination of new approaches and common sense:
-- The MetaMesh program has the unique capability to generate structured, conformal meshes. Such meshes combine the accuracy of conformal elements with the efficiency of strict logical order where element relationships are determined by index operations.
-- The solution programs are written entirely in modern FORTRAN, a language unmatched for serious number crunching.
-- The design of the programs scrupulously avoids stratagems like object-oriented programing that make coding easier but add computational overhead.
-- Instead of using generalized libraries, mathematical routines are hand-coded for top efficiency. The programs are carefully analyzed to remove redundancies and to minimize disk access.
-- The solution techniques are chosen to involve the fewest operations and to make minimum demands on memory (e.g., the scalar reduced-potential method for 3D magnetic field calculations).
The end result of this effort is to make three-dimensional simulations practical, even on ordinary personal computers. The performance can be illustrated with an electrostatic calculation, the injector for the DARHT Accelerator at Los Alamos National Laboratory. The challenge is to model the full volume of a 6.3 m high vacuum chamber while achieving sufficient accuracy to calculate transport of a space-charge-limited relativistic electron beam across an acceleration gap. For a realistic test, the calculation was not performed on an expensive, optimized workstation. Instead, we used an off-the-shelf $600 HP computer (Windows Vista 64, Intel Core2 Duo E8400 at 3.00 GHz). The mesh (with 1.75 million elements) took 18 seconds to create with MetaMesh. The finite-element solution with the HiPhi program involved the generation and matrix inversion of a set of close to 2 million node equations. The total run time was under 5 minutes (287 seconds), barely time to get a cup of coffee. With such short run times, users have the latitude to do what-if experiments and to investigate a wider range of parameters and approaches.
Field Precision has stock high-speed application packages for high-voltage engineering, electromagnet design, electron and ion guns, RF and microwave technology, X-ray sources and permanent-magnet devices.
- Tire maker Michelin develops FEA post-processing tools using MeshViz XLM and Open Inventor® by VSG
- FARO and Autodesk Collaborate to Add Support for Point Cloud Data to AutoCAD 2011
- Delcam presented with sixth Queen's Award
- Spatial Announces Registration Open for 3D Insiders' Summit 2011
- MSC Software and Sigmadyne Announce New Capabilities for Optimization of Optical Systems
- Official Thinkdesign 2011 Beta version Entering into the Build Phase - Ready for Imminent Release
- Materialise Innovation Forum Major Success
- COMET robot machining consortium meets at Fraunhofer
- Two Indian SolidWorks resellers add Sescoi's WorkNC to their portfolio
- Autodesk Acquires T-Splines Modeling Technology Assets