XLab Hydro (extension of Avizo Fire software) which provides numerical simulation capabilities to calculate absolute permeability of a porous media, from a scanned sample (CT, FIB-SEM, MRI, etc.). XLab Hydro directly computes material properties from the segmented 3D image. The Stokes equations are solved using a finite volume method, with no need to extract a 3D mesh (for Finite Element simulation) or a geometric skeleton (for Pore Network Modeling).
XLab Diffusion (extension of Avizo Fire software) provides numerical simulation capabilities to calculate molecular diffusivity of a porous medium from a scanned sample (CT, FIB-SEM, MRI, etc.). XLab Diffusion directly computes material properties from the segmented 3D image. Fick's second equation is solved using a finite volume method, with no need to extract a 3D mesh.
XLab Electro (extension of Avizo Fire software) provides numerical simulation capabilities to calculate electrical resistivity (formation factor) of a porous medium from a scanned sample (CT, FIB-SEM, MRI, etc.). XLab Electro directly computes material properties from the segmented 3D image. Ohm's equation is solved using a finite volume method, with no need to extract a 3D mesh.
Create new custom components for Avizo, such as file readers and writers,computation modules, and even new visualization modules, using the C++ programming language.
Manage and visualize very large amounts of volume data of up to several terabytes. Go far beyond the limit of the available system memory. The multiresolution technique used in XLVolume enables interactive visualization and navigation through large data sets.
Use Avizo's advanced data visualization and analysis features on immersive VR systems or tiled screens configurations. It has built-in support for efficient multi-threaded rendering on multi pipe systems or distributed rendering on a cluster system, using application level distribution. This approach offers optimal performance with minimal bandwidth requirements. Tracking capabilities enable a real immersive experience and interaction with the visualization.
Multiple users can fully collaborate simultaneously on a shared project by synchronizing and sharing their respective local sessions. Available from desktop to VR/Cluster configurations, this high-level collaboration component addresses advanced needs in collaborative research projects.
Reconstruct and analyze dendritic and fracture networks.Specific micro-detailed image mosaics management is combined with advanced automatic and semi-automatic tools for reconstruction of images, such as a porosity network acquired through MRI, CT-scan, or other techniques.
Seamless import of CAD data using a set of specialized readers: CATIA 5, IGES, and STEP readers.