Version 1.0 ToDo List

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Revision as of 13:37, 13 January 2016 by Kmorel (talk | contribs)
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The following is a list of features collected in the months before the VTK-m 1.0 release that are on the short path to be completed.

Feature Status
Settling of the core interface Ken needs to look at dynamic cell set because it has a different than the dynamic array and is causing much more code generation.
Standardization of "filters" There is a WIP branch on the implementation of filters with a few initial filters added to it.
Support worklet operations that are not one-to-one output Done
Basic file I/O Done. Except Matt has been having trouble loading in VTK files. There appears to be an issue with VTK files exported from VisIt. It is probably some extra meta-data that VisIt is adding. Sujin will take a look at that.
Basic rendering Not started yet. There is a Rendering Infrastructure design document. A lot of the things Matt has been working on could be used. Jeremy and Dave will use that as a start.
Clean up Doxygen Need to get documentation syncing nightly.
User's Guide Behind. Trying to catch up. Making some progress.
Green dashboard
  • Still have problems with some CUDA dashboards
    • Some may have been resolved
    • There are issues with dejagore running out of memory
  • Some working CUDA dashboards have a timer failure
  • There have been some interop failures. - Rob thinks they are fixed.
  • Some further output issues on Windows (see delve dashboards e.g. https://open.cdash.org/viewTest.php?onlyfailed&buildid=4123995)
    • Need to get the buildbot tests running nightly to check up on this issue.
  • Some timeout issues on renar (e.g. https://open.cdash.org/viewTest.php?onlyfailed&buildid=4123644). Could be caused by JIT of CUDA kernels or might be because multiple things are running.
    • This should be resolved with a branch being merged in today.
Prototype VTK/ParaView/VisIt integration

(Technically not part of the release, but should indicate we have viable components.)

Eric Brugger has made some progress on integrating VTK-m into VisIt. He is able to run the marching cubes algorithm from within VisIt and generate images.