MediaWiki API result
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"*": "Subscribe to the mediawiki-api-announce mailing list at <https://lists.wikimedia.org/postorius/lists/mediawiki-api-announce.lists.wikimedia.org/> for notice of API deprecations and breaking changes."
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"*": "Because \"rvslots\" was not specified, a legacy format has been used for the output. This format is deprecated, and in the future the new format will always be used."
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"29": {
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"title": "Reports",
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"*": "* [[Media:XVisReportFY17Q4.pdf|XVis FY17 Year-end Report]]\n* [[Media:XVisReportFY17Q2.pdf|XVis FY17 Mid-year Report]]\n* [[Media:XVisReportFY16Q4.pdf|XVis FY16 Year-end Report]]\n* [[Media:XVisReportFY16Q2.pdf|XVis FY16 Mid-year Report]]\n* [[Media:XVisReportFY15Q4.pdf|XVis FY15 Year-end Report]]\n* [[Media:XVisReportFY15Q2.pdf|XVis FY15 Mid-year Report]]"
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"title": "XVis Kickoff Meeting 2014-11-17",
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"*": "Monday, November 17, 2014<br/>\nILE France III boardroom, JW Marriott<br/>\n614 Canal St., New Orleans 70130\n\n{| cellpadding=\"2\" cellspacing=\"0\"\n|- style=\"background:#abcdef\"\n! style=\"border-bottom: 2px solid white\" align=\"right\" | 8:45\n! style=\"border-bottom: 2px solid white\" | Gather and Introduction\n! style=\"border-bottom: 2px solid white\" |\n|- style=\"background:#abcdef\"\n! align=\"right\" | 9:00\n! Emerging Architectures\n!\n|-\n|\n| Existing codes\n|- style=\"font-size:smaller\"\n|\n| What should go into VTK-m, what they want from VTK-m, Possible integration issues.\n|-\n|\n| [[Media:XVisKickOffMeetingLANLPresentation.pdf|PISTON]] <span style=\"font-size:smaller; color:gray\">15 minutes</span>\n| Chris Sewell\n|-\n|\n| EAVL <span style=\"font-size:smaller; color:gray\">15 minutes</span>\n| Jeremy Meredith\n|-\n|\n| Dax <span style=\"font-size:smaller; color:#808080\">15 minutes</span>\n| Robert Maynard\n|-\n|\n| [[media:XVisKickoffVTKmLogistics.pptx|VTK-m Logistics]] <span style=\"font-size:smaller; color:gray\">15 minutes</span>\n| Kenneth Moreland\n|-\n|\n| [[Missing algorithms]]\n|-\n|\n| Discussion and Milestones <span style=\"font-size:smaller; color:gray\">30 minutes</span>\n|- style=\"font-size:smaller\"\n|\n| 1.a Initial VTK-m Design (SNL, Kitware, ORNL, LANL)\n|- style=\"background:#abcdef\"\n! align=\"right\" | 10:30\n! In Situ\n!\n|-\n|\n| Flyweight In Situ <span style=\"font-size:smaller; color:gray\">15 minutes</span>\n| Berk Geveci\n|-\n|\n| Flexible Data Models <span style=\"font-size:smaller; color:gray\">15 minutes</span>\n| Jeremy Meredith\n|-\n|\n| [[media:hank_kickoff_slides.pdf|Early Career Project]] <span style=\"font-size:smaller; color:gray\">30 minutes</span>\n| Hank Childs\n|- style=\"font-size:smaller\"\n|\n| What it provides. What XVis can provide.\n|-\n|\n| Discussion and Milestones <span style=\"font-size:smaller; color:gray\">30 minutes</span>\n|- style=\"font-size:smaller\"\n|\n| 2.a Expand Data Models (ORNL, Kitware)\n|- style=\"font-size:smaller\"\n|\n| 2.b Post Hoc Interaction (Oregon)\n|- style=\"background:#abcdef\"\n! style=\"border-bottom: 2px solid white\" align=\"right\" | 12:00\n! style=\"border-bottom: 2px solid white\" | Lunch\n! style=\"border-bottom: 2px solid white\" |\n|- style=\"background:#abcdef\"\n! align=\"right\" | 1:30\n! User Studies\n!\n|-\n|\n| Overview of Visualization User Studies <span style=\"font-size:smaller; color:gray\">30 minutes</span>\n| Kwan-Liu Ma\n|- style=\"font-size:smaller\"\n|\n| Science behind user studies\n|- style=\"font-size:smaller\"\n|\n| Logistics (DOE requirements, getting/handling subjects, cost)\n|-\n|\n| Discussion and Milestones <span style=\"font-size:smaller; color:gray\">30 minutes</span>\n|- style=\"font-size:smaller\"\n|\n| 3.a Develop Techniques to be Studied (Davis)\n|- style=\"background:#abcdef\"\n! align=\"right\" | 2:30\n! Proxy Applications\n!\n|-\n|\n| [[Media:HerouxHowtoMakeAMiniapp.pptx|Mini-apps]] <span style=\"font-size:smaller; color:gray\">30 minutes</span>\n| Michael Heroux\n|- style=\"font-size:smaller\"\n|\n| Brief overview of Mantevo\n|- style=\"font-size:smaller\"\n|\n| Requirements of mini-apps\n|- style=\"font-size:smaller\"\n|\n| Difference between mini-apps and proxy apps\n|- style=\"font-size:smaller\"\n|\n| What should a vis mini-app look like?\n|-\n|\n| Empirically Testing Scientific Apps <span style=\"font-size:smaller; color:gray\">30 minutes</span>\n| Jeremy Meredith\n|- style=\"font-size:smaller\"\n|\n| Brief overview of Oxbow\n|- style=\"font-size:smaller\"\n|\n| Plans for vis\n|-\n|\n| Discussion and Milestones <span style=\"font-size:smaller; color:gray\">30 minutes</span>\n|- style=\"font-size:smaller\"\n|\n| 4.a Initial Mini-App Implementation (Sandia, ORNL)\n|- style=\"background:#abcdef\"\n! align=\"right\" | 4:00\n! General Discussions\n!\n|-\n|\n| Differentiating XVis from SDAV <span style=\"font-size:smaller; color:gray\">15 minutes</span>\n|-\n|\n| XVis and VTK-m Logos <span style=\"font-size:smaller; color:gray\">15 minutes</span>\n|-\n|\n| Breakout Sessions?\n|}\n\n== Notes ==\n\n=== VTK-m ===\n\nOne of the discussions that came up during the talk about EAVL is the use of VTK-m for self contained in situ visualization. EAVL is completely self contained with complete implementations of CUDA and multi-core algorithms, font embedding, and rendering. EAVL can be built with no dependencies making it easy to integrate with other packages such as Boost or Thrust. How far should we go with this concept in VTK-m? Can we bring in third party libraries? Can we have optional dependencies?\n\nThe basic iterator/functor idea for algorithm implementation is common across EAVL, PISTON, and Dax. What VTK-m should provide on top of this is performance across all data types. Implementing an algorithm on a regular grid might be straightforward, but how well will that algorithm perform on unstructured, higher order, hierarchical, or multi-dimensional data? VTK-m should also provide search structures. Should that be part of the data types?\n\nSome discussion was given to task parallelism. Should VTK-m find independent operations in a sequence of operations? Should that be a layer on VTK-m? Is that important enough to implement? (Perhaps tasks can be created in more obvious and effective ways in practice, such as through blocks or other coarse data partitions.)\n\nStreaming and distributed processing are important use cases for VTK-m. Streaming will likely take some thought and design. How much does VTK-m need to worry about distributed parallelism? At a minimum it needs to be aware of and support ghost elements. Support beyond that is likely unneeded but can be investigated.\n\nAnother important point for VTK-m to succeed is that we need to implement a large enough set of algorithms that makes VTK-m useful to simply take an apply to scientific visualization. Some time was taken to brainstorm on a top 10 common [[missing algorithms]] list that we should implement, which quickly grew to more than 10 elements.\n\n=== User Studies ===\n\nThe studies Kwan-Liu intends to do a primarily qualitative user studies in which collaborators in other science projects evaluate different in situ techniques (e.g. standard rendering vs. explorable images). The challenge with this type of study is in demonstrating the value of the results. This is important both in terms of publishing and reporting back to ASCR. Hank is also considering more quantitative studies in which groups of subjects are measured performing particular tasks.\n\nThere was some brief discussion about getting IRB approval. Considering the nature of the study, IRB approval should be a straightforward formality. There was also the suggestion that the more qualitative studies might be exempt from having IRB approval since no formal measurements are taken, but given the nature of the proposed work, our program manager will likely be expecting an IRB review to happen.\n\n=== Mini-apps ===\n\nMike's slides capture well the process of building mini-apps.\n\nOne side conversation that happened during this time was a discussion on creating task-centric dataflow networks. It can be the case that our parallel algorithms logically overdecompose the data. This can be particularly problematic for vector instructions that require multiple data elements to stay full. It is good to implement algorithms as asynchronous task launches. This maps well to mluticore architectures as well as mapping well to heterogeneous and multi-GPU architectures.\n\n=== Differentiating XVis from SDAV ===\n\nFor the most part, XVis and SDAV are significantly different projects, but there is overlap in the VTK-m software. We need to clearly demarcate what types of work we do with each project and be careful not to double report the same work to the two projects.\n\nThe following types of work falls under the XVis project:\n* Infrastructure\n* Research\n* Filters\n\nThese types of work fall under the SDAV project:\n* Integration\n* Collaboration\n* Filters\n\nNote that filters can fall under either project. Which one that is depends on the nature of the filter and the reason it is created. A filter that is part of the core research or infrastructure should be part of XVis. However, a filter to support a collaboration should be part of SDAV."
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