@TechReport{SCI:Ber2012a,
  author =    "M. Berzins",
  title =     "Status of Release of the Uintah Computational
              Framework",
  number =    "UUSCI-2012-001",
  year =      "2012",
  institution = "SCI Institute, University of Utah",
  type =      "SCI Technical Report",
  abstract =  "<p>This report <em>provides</em> a summary of the
              status of the Uintah Computation Framework (UCF)
              software. Uintah is uniquely equipped to tackle
              large-scale multi-physics science and engineering
              problems on disparate length and time scales. The
              Uintah framework makes it possible to run adaptive
              computations on modern HPC architectures with tens
              and now hundreds of thousands of cores with complex
              communication/memory hierarchies. Uintah was
              orignally developed in the University of Utah
              Center for Simulation of Accidental Fires and
              Explosions (C-SAFE), a DOE-funded academic alliance
              project and then extended to the broader NSF snd
              DOE science and engineering communities. As Uintah
              is applicable to a wide range of engineering
              problems that involve fl uid-structure interactions
              with highly deformable structures it is used for a
              number of NSF-funded and DOE engineering projects.
              In this report the Uintah framework software is
              outlined and typical applications are illustrated.
              Uintah is open-source software that is available
              through the MIT open-source license at
              http://www.uintah.utah.edu/.</p>",
  url =       "http://www.sci.utah.edu/publications/SCITechReports/UUSCI-2012-001.pdf",
  url =       "http://www.sci.utah.edu/publications/SCITechReports/uintah-downloads.jpg",
}