Siemens Updates 3D Geometric Modelling Software

Siemens PLM Software has announced the latest release of its Parasolid software, a PLM 3D geometric modelling component that supports complex processes throughout the product development process. Parasolid Version 23.0 (V23) delivers a variety of enhancements to reflect a continuing emphasis on increasing productivity. Parasolid has extended its support for multi-core processor hardware to enable applications based on Parasolid to realise a performance advantage over single-core processors.

Parasolid V23 is now fully thread safe, so applications can have several threads running on different processors, with each calling any Parasolid function simultaneously. This is possible due to optimised thread, session and memory management as well as error reporting capabilities in Parasolid V23 that free the application developer from the need to coordinate the multi-thread function calls. As a result, applications based on Parasolid can benefit from multi-core processing speed with less time spent in application development.

A new face deformation operation enables sophisticated shape changes to digital models based on either design requirements or simulations of shape changes that occur due to real-world situations such as deflection under load or distortion during temperature cycles. Any set of faces in a model can be selected for deformation as defined by a mathematical function provided by the application. This capability is said to be particularly powerful because the deformation preserves and adjusts existing features, such as offsets and blends, and the deformation may also be applied simultaneously with other model edits.

In response to the needs of product designers who need to create and modify complex geometry with maximum productivity and flexibility, Parasolid V23 introduces enhanced blending techniques and controls that extend the software's range of blending capabilities into the domain of complex modelling. New options are now available to provide more refined control over the shape of chord-width blends - blends that create a uniform, aesthetically pleasing shape and are particularly useful when working with high-quality curved surfaces.

Variable chord-width face blends provide new methods of defining the chord width and ratio of face blends as being constant or variable according to application-provided functions. Chord-width face blends, both constant and variable, are also enhanced with the ability to now have disc cross sections in addition to existing rolling ball cross sections. Blends can now be defined to be trimmed (terminated) at a specific edge or face, providing more immediate, localised and robust control of complex blend interactions.

As the geometric modelling component - or kernel - in many of CAD, CAM and CAE applications, Parasolid is often required to work with imported data from other systems that require various levels of geometry and topology repair. Parasolid V23 includes several new functions to enhance data import and repair. One of these functions enables Parasolid to analyse the topological structure of a model and repair ambiguities, thereby producing data that often meets the rigorous requirements of a fully consistent boundary-representation (b-rep) model, while maintaining the intent of the original data.

For example, Parasolid can now detect and repair topological clashes between shells where two faces from different shells share a common edge, greatly reducing model repair time. Parasolid can now automatically detect and repair surfaces that are ill-defined and unstable because they contain 'degeneracies'. A new option to the model checking function in Parasolid improves the productivity in working with imported data by automatically requesting more detailed reporting including new fault codes.

Parasolid V23 includes further enhancements to the rapid development of neutral sheet modelling technology, targeted at the computer-aided engineering analysis (CAE) market. Performing these operations at the kernel modeler level has significant advantages of performance, model consistency and functional robustness over implementing them at the application level. New Parasolid functions are provided for detecting and optionally repairing overlapping neutral faces - even those that may occur in apparently simple configurations - in a fraction of the time it would take to perform this task manually.

Neutral sheet faces may now also be shared between more than one pair of model faces for improved performance and reduced model size. New controls have been added to the sweeping operation and restrictions have been removed to make it quicker and easier to achieve the desired shape in a single operation. A sweep can now be locked to face normals where the sweep path lies on a set of faces. Continuity restrictions on sweep paths have been lifted to allow visibly smooth paths where guides, multiple profiles, scale, or twist laws are also supplied. Sweeps can now also be performed between multiple profiles, each having multiple loops to create disjoint bodies.

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