- Version 4.3.1 | Release Date: 2015-01-20 | Download
Full changelog available at
- Version 4.0.1 | Release Date: 2013-06-17 | Download
ParaView 4.0.1 is now available for download. This release marks the first change in the major version number since 2007. Unlike the change from 2 to 3, however, this release is not a major departure from the 3 series, but marks a milestone in the gradual progression of ParaView UI and framework since 2007. These notes highlight some of the major enhacements in this version that addresses over 130 issues since the most recent release. ParaView 4.0.1 is based on VTK 6.0 and hence includes all the fixes and enhancements that went into the VTK 6.0 release.
- Version 3.14 | Release Date: 2012-02-26 | Download
There are several usability enhancements in ParaView 3.14. To simplify the process of working with many views simultaneously, ParaView now supports creating multiple tabs for placing views, which enables rapid switching of views laid out on a tile-display by simply switching the active tab. The view layout framework has also been improved, and now allows users to change the layout of views using Python. Other usability improvements include the ability to easily copy values such as ranges, bounds, etc. from the information tab, statics inspector, and spreadsheet view, to the clipboard; a new search feature using Ctrl+F to find items in variables, lists and trees within the selected widget; and dockable inspector panels such as the information or properties tab.
- Version 3.12.0 | Release Date: 2011-11-08 | Download
Better streaming options
Tons of bug fixes
Stereo 3D settings are much easier to change
Speedups through caching
- Version 3.8.1 | Release Date: 2010-12-16 | Download
We have made it easier to locate cells/points in your dataset using queries. Search the ParaView Wiki for "Find Data using Queries" for more information.
The plugin loading and management dialog was redesigned to make it easier to load plugins. It's now possible to configure plugins to be auto-loaded every time ParaView starts. We've added support for plotting over curves and intersection lines using the filters "Plot On Sorted Lines" and "Plot On Intersection Curves".
A couple of GPU-based rendering/visualization techniques have been incorporated along with GPU-based volume rendering support for 3D image volumes, which is accessible through the "Volume Mapper" option on the Display tab. Support for Line Integral Convolution (LIC) is available as a plugin; this support can be used for visualizing vector fields over arbitrary surfaces.
ParaView now includes (in source form only) an interface to the University of Utah's Manta interactive software ray tracing engine. The Manta plugin provides a new 3D View type which uses Manta instead of OpenGL for rendering. The plugin is primarily being developed for visualization of large datasets on parallel machines. In single processor configuration it has the benefit of allowing realistic rendering effects such as shadows, translucency and reflection.
In terms of performance improvements, we've greatly improved the first render time for datasets with large numbers of blocks. Raw image reading for parallel file systems underwent a major overhaul making it fast and efficient. Options were added to the Settings dialog to fine tune image compression, improving interactivity when remote rendering over connections with varying bandwidths.
After the introducing Python tracing in the previous release, we have expanded the purview of tracing to include selections, lookup tables, and implicit functions.
For climate simulation folks, this release includes support for NetCDF with CF (Climate and Forecast) conventions. For cosmology researchers, the Cosmo plugin has been substantially revised. The major improvement is that the plugin now works in a data parallel fashion, so that it can be used with higher resolution simulation results. We have reintroduced basic support for CAVE rendering which was lost since the major overhaul for ParaView 3.0.
There are several other fixes including those for charting and plotting, wireframes for quadratic surfaces, and for dealing with temporal ranges.
For developers, this release includes major changes to the core ParaView libraries making it easier to create and deploy custom applications based on the ParaView framework. This enables developers to create applications with fundamentally different workflows than that of ParaView while still leveraging ParaView's parallel processing and large data visualization capabilities. Search for "Writing Custom Applications" on the ParaView Wiki for details.
The plugin framework has undergone an overhaul as well, making it easier to debug issues with loading of plugins as well as support for importing plugins in static applications.
ParaView now comes with HDF5 1.8.5. This enables developers to easily create readers and plugins for ParaView that use newer versions of HDF5. We are now including the C++ and the high level (hl) versions of the library for those who wish to use their newer API.
Among the improvements are two new file formats. The first is a netcdf based reader for MPAS format ocean and atmosphere datasets. The second, available in source form only, is a reader plugin that allows ParaView to read multi-resolution wavelet compressed VAPOR data format files. Thanks to John Clyne and Dan Legreca for contributing the VAPOR plugin.
We have improved the support for animation scripting through Python. The new API is more coherent with the rest of the ParaView Python API, avoiding the need for script writers to know minute details regarding how to create animations using proxies. Tracing capabilies for animation were also revised.
The GPU volume ray cast mapper for voxel datasets now works in tile display mode. In keeping with our ongoing improvements of ParaView's charting capabilities, we have included a few fixes regarding labels and axes placements.
ParaView build and install rules have been cleaned up so developers no longer have to worry about 'rpath' and "make install" has been improved on all platforms.
This release includes a material interface extraction filter that takes a cell data volume fraction and generates a polydata surface. It also performs connectivity on the particles and generates a particle index as part of the cell data of the output. The filter computes the volume of each particle from the volume fraction and is accessible from the Material Analysis category in the Filters menu.
- Version 3.6.1 | Release Date: 2009-11-10 | Download
- No changes specified
- Version 3.4.0 | Release Date: 2008-12-15 | Download
- No changes specified
- Version 3.2.1 | Release Date: 2007-11-28 | Download
Reclaims some of the functionality from version 2.6.1 and increases stability.
- Version 3.0.2 | Release Date: 2007-07-06 | Download
- No changes specified