ZEUS-2D <author> <version> <abstract> ZEUS-2D is a computational fluid dynamics code developed at the Laboratory for Computational Astrophysics (NCSA, University of Illinois at Urbana-Champaign) for astrophysical radiation magetohydrodynamics problems. ZEUS-2D solves problems in one or two spatial dimensions with a wide variety of boundary conditions. The C language preprocessor allows the user to define various macros to customize the ZEUS-2D algorithm for the desired physics, geometry, and output. <description><url>http://zeus.ncsa.uiuc.edu:8080/lca_intro_zeus2d.html</url> <reference><url>http://zeus.ncsa.uiuc.edu:8080/lca/LCA014/LCA014.html</url> <reference><url>http://zeus.ncsa.uiuc.edu:8080/lca/LCA013/ZEUS2D_RH_Module.ps</url> <contact>Robert Fiedler / lca@ncsa.uiuc.edu <keywords>computational fluid dynamics; hydrodynamics; radiation transport; application program <category>application <publication-date> <environment> <method>finite difference code with a fixed or moving orthogonal Eulerian mesh <application>astrophysical radiation magnetohydrodynamics <comments> Available to academic researchers via a royalty-free license agreement. General inquiries, user registration, and bug reports are handled by electronic mail. Extensive documentation for LCA-supported codes is available via anonymous ftp. If you have questions about LCA software unanswered by the documentation, contact the LCA by e-mail at lca@ncsa.uiuc.edu. </urc> <urc> <url> <title>ZEUS-3D <author> <version> <abstract> ZEUS-3D is a computational fluid dynamics code developed at the Laboratory for Computational Astrophysics (NCSA, University of Illinois at Urbana-Champaign) for the simulation of astrophysical phenomena. ZEUS-3D solves problems in one, two, or three spatial dimensions with a wide variety of boundary conditions. A source-code preprocessor allows the user to customize the ZEUS-3D algorithm for the desired physics, geometry, and output. <description><url>http://zeus.ncsa.uiuc.edu:8080/lca_intro_zeus3d.html</url> <reference><url>http://zeus.ncsa.uiuc.edu:8080/lca/zeus3d/zeus32.ps</url> <contact>Robert Fiedler / lca@ncsa.uiuc.edu <keywords>computational fluid dynamics; magnetohydrodynamics; application program <category>application <publication-date> <environment> <method>finite difference code with a fixed or moving orthogonal Eulerian mesh <application>simulation of astrophysical phenomena <comments> Available to academic researchers via a royalty-free license agreement. General inquiries, user registration, and bug reports are handled by electronic mail. Extensive documentation for LCA-supported codes is available via anonymous ftp. If you have questions about LCA software unanswered by the documentation, contact the LCA by e-mail at lca@ncsa.uiuc.edu. </urc> <urc> <url> <title>TITAN <author> <version> <abstract> TITAN is a general-purpose radiation hydrodynamics code developed at the Laboratory for Computational Astrophysics (NCSA, University of Illinois at Urbana-Champaign). TITAN solves the coupled sets of radiation transfer and fluid dynamics equations on an adaptive mesh in one spatial dimension. <description><url>http://zeus.ncsa.uiuc.edu:8080/lca_intro_titan.html</url> <reference><url>http://zeus.ncsa.uiuc.edu:8080/lca/titan/Physica_D.ps</url> <reference><url>http://zeus.ncsa.uiuc.edu:8080/Titan_User_Guide/text.html</url> <reference><url>http://zeus.ncsa.uiuc.edu:8080/lca/titan/Reference_Manual.ps</url> <contact>Robert Fiedler / lca@ncsa.uiuc.edu <keywords>radiation hydrodynamics; radiation transfer; fluid dynamics; application program <category>application <publication-date> <environment> <method>finite difference code with first-order implicit time integration <application>Newtonian radiation hydrodynamics <comments> Available to academic researchers via a royalty-free license agreement. General inquiries, user registration, and bug reports are handled by electronic mail. Extensive documentation for LCA-supported codes is available via anonymous ftp. If you have questions about LCA software unanswered by the documentation, contact the LCA by e-mail at lca@ncsa.uiuc.edu. </urc> <urc> <url> <title>4D2, visualization tool for computational fluid dynamics data <author> <version> <abstract> 4d2 is an interactive visualization tool for time-dependent 3D CFD data containing scalar and vector fields on rectangular grids, and for particle data. The software runs on SGI machines (tested on personal IRIS, 4D/340 VGX, Indy, Indigo2). It is easy to use and provides many visualization functions such as contour plots, vector plots, slicing, iso-surface extraction, streamline tracing, particle displaying, and volume rendering, as well as a graphical user interface and an animation tool for time-dependent data sets. <description><url>http://zeus.ncsa.uiuc.edu:8080/lca_intro_4d2.html</url> <reference><url>http://zeus.ncsa.uiuc.edu:8080/lca/4d2/4d2_part1.ps</url> <reference><url>http://zeus.ncsa.uiuc.edu:8080/lca/4d2/4d2_part2.ps</url> <reference><url>http://zeus.ncsa.uiuc.edu:8080/lca/4d2/4d2_part3.ps</url> <reference><url>http://zeus.ncsa.uiuc.edu:8080/lca/4d2/4d2_part4.ps</url> <reference><url>http://zeus.ncsa.uiuc.edu:8080/lca/4d2/4d2_part5.ps</url> <contact>Robert Fiedler / lca@ncsa.uiuc.edu <keywords>data visualization; computational fluid dynamics <category>application <publication-date> <environment>SGI machines (tested on personal IRIS, 4D/340 VGX, Indy, Indigo2) <method> <application>3D computational fluid dynamics <comments> Public domain software. General inquiries, user registration, and bug reports are handled by electronic mail. Extensive documentation for LCA-supported codes is available via anonymous ftp. If you have questions about LCA software unanswered by the documentation, contact the LCA by e-mail at lca@ncsa.uiuc.edu. </urc>