Spatial Corp. is a market-leading provider of 3D components for technical applications across a broad range of industries. Spatial’s 3D modeling, visualization, interoperability technologies and Professional Services and Support help application developers deliver market-leading capabilities, maintain focus on core competencies, and reduce time-to-market.
The 3D ACIS® Modeler (ACIS) is Spatial’s prominent modeling component used in over 350 customer applications with more than 2 million seats worldwide. ACIS features an open, object-oriented C++ architecture that enables robust, 3D modeling capabilities. It is particularly well-suited for developing applications with hybrid modeling features, since it integrates wireframe, surface, and solid modeling functionality with both manifold and non-manifold topology, and a rich set of geometric operations. ACIS provides a sound base of 3D modeling functionality, plus the flexibility to meet individual application requirements. The 3D solid modeler also includes ACIS extensions for specific application needs including hidden line removal, deformable modeling, advanced covering and defeaturing.
Spatial’s 3D InterOp delivers the highest quality data exchange between CAD formats, enabling superior CAD file translation. The comprehensive suite of translators provides import/export for all applications, including ACIS, CGM and Parasolid-based applications. 3D InterOp is embedded in many of today’s leading design, engineering, and manufacturing applications.
The EDA 3D Analysis Suite enables rapid development of 3D analysis and
integration with your application. The EDA 3D Analysis Suite provides
all the preprocessing and 3D Visualization necessary to link your 2D
application to your 2.5D and/or 3D proprietary solver capability. This
suite of EDA Tools
consists of a 3D modeler, a mesher subsystem that includes utilities to
implement adaptive meshing, and a graphics display that is integrated
and accessible through a unified API to streamline developer learning
curves and accelerate development time.