ParaView explained

ParaView
Logo Size:250px
Developer:Sandia National Laboratories,
Kitware Inc,
Los Alamos National Laboratory
Discontinued:No
Latest Release Version:5.12.1
Latest Release Date:[1]
Latest Preview Version:5.13.0-RC1
Programming Language:C, C++, Fortran, Python
Operating System:Unix/Linux, macOS, Microsoft Windows
Genre:Scientific visualization, Interactive visualization
License:3-clause BSD
Website:www.paraview.org

ParaView is an open-source multiple-platform application for interactive, scientific visualization. It has a client–server architecture to facilitate remote visualization of datasets, and generates level of detail (LOD) models to maintain interactive frame rates for large datasets. It is an application built on top of the Visualization Toolkit (VTK) libraries. ParaView is an application designed for data parallelism on shared-memory or distributed-memory multicomputers and clusters. It can also be run as a single-computer application.

Summary

ParaView is an open-source, multi-platform data analysis and visualization application. ParaView is known and used in many different communities to analyze and visualize scientific data sets. It can be used to build visualizations to analyze data using qualitative and quantitative techniques. The data exploration can be done interactively in 3D or programmatically using ParaView's batch processing capabilities.

ParaView was developed to analyze extremely large datasets using distributed memory computing resources. It can be run on supercomputers to analyze datasets of terascale as well as on laptops for smaller data.

ParaView is an application framework as well as a turn-key application. The ParaView code base is designed in such a way that all of its components can be reused to quickly develop vertical applications. This flexibility allows ParaView developers to quickly develop applications that have specific functionality for a specific problem domain.

ParaView runs on distributed and shared memory parallel and single processor systems. It has been successfully tested on Windows, macOS, Linux, IBM Blue Gene, Cray Xt3 and various Unix workstations, clusters and supercomputers. Under the hood, ParaView uses Visualization Toolkit (VTK) as the data processing and rendering engine and has a user interface written using Qt.

The goals of the ParaView team include the following:

History

The ParaView project started in 2000 as a collaborative effort between Kitware, Inc. and Los Alamos National Laboratory through funding provided by the US Department of Energy ASCI Views program. The first public release was announced in October 2002.

Independent of ParaView, Kitware developed a web-based visualization system in December 2001. This project was funded by Phase I and II SBIRs from the US Army Research Laboratory and eventually became the ParaView Enterprise Edition. PVEE significantly contributed to the development of ParaView's client/server architecture.

In September 2005, Kitware, Sandia National Labs and CSimSoft (now Coreform LLC) started the development of ParaView 3.0. ParaView 3.0 was released in May 2007. In June 2013, ParaView 4.0 was released, this version was based on VTK 6.0. Version 5.0 was released in January 2016, this version included a new rendering back-end.

Features

Visualization capabilities

Input/output and file format

User interaction

Large data and distributed computing

Scripting and extensibility

ParaView in use

See also

External links

Notes and References

  1. Web site: Tags · ParaView / ParaView · GitLab. 11 July 2024.
  2. Web site: Post-processing via 3rd-party solution — SimScale Documentation. www.simscale.com. en. 2018-01-15.
  3. News: Post-Processing with ParaView for Formula Student. SimScale. 2018-01-15. en-US.
  4. Web site: FEATool Multiphysics ParaView Glance Examples Gallery. www.featool.com. en. 2019-04-24.