Metadata for imagevis3d in universe

---
Type: desktop-application
ID: imagevis3d.desktop
Package: imagevis3d
Name:
  C: ImageVis3D
Summary:
  C: Desktop volume rendering application for large data
Description:
  C: >-
    <p>ImageVis3D is a volume rendering application specifically designed to render large data.  This is achieved by splitting
    the dataset into multiple levels of detail (LoD), with each level itself decomposed into multiple bricks (atomic rendering
    primitive).  Interaction occurs at the coarsest LoD, which can be rendered instantaneously on almost all modern systems. 
    After a configurable delay, ImageVis3D will successively render finer levels of detail, until the data are visible at
    their native resolution.</p>

    <p>Development of ImageVis3D is sponsored by the NIH/NCRR Center for Integrative Biomedical Computing (CIBC), and the
    DOE Visualization And Analytics Center for Enabling Technologies (VACET).</p>
  en: >-
    <p>ImageVis3D is a volume rendering application specifically designed to render large data.  This is achieved by splitting
    the dataset into multiple levels of detail (LoD), with each level itself decomposed into multiple bricks (atomic rendering
    primitive).  Interaction occurs at the coarsest LoD, which can be rendered instantaneously on almost all modern systems. 
    After a configurable delay, ImageVis3D will successively render finer levels of detail, until the data are visible at
    their native resolution.</p>

    <p>Development of ImageVis3D is sponsored by the NIH/NCRR Center for Integrative Biomedical Computing (CIBC), and the
    DOE Visualization And Analytics Center for Enabling Technologies (VACET).</p>
  en_CA: >-
    <p>ImageVis3D is a volume rendering application specifically designed to render large data.  This is achieved by splitting
    the dataset into multiple levels of detail (LoD), with each level itself decomposed into multiple bricks (atomic rendering
    primitive).  Interaction occurs at the coarsest LoD, which can be rendered instantaneously on almost all modern systems. 
    After a configurable delay, ImageVis3D will successively render finer levels of detail, until the data are visible at
    their native resolution.</p>

    <p>Development of ImageVis3D is sponsored by the NIH/NCRR Center for Integrative Biomedical Computing (CIBC), and the
    DOE Visualization And Analytics Center for Enabling Technologies (VACET).</p>
  gl: >-
    <p>ImageVis3D is a volume rendering application specifically designed to render large data.  This is achieved by splitting
    the dataset into multiple levels of detail (LoD), with each level itself decomposed into multiple bricks (atomic rendering
    primitive).  Interaction occurs at the coarsest LoD, which can be rendered instantaneously on almost all modern systems. 
    After a configurable delay, ImageVis3D will successively render finer levels of detail, until the data are visible at
    their native resolution.</p>

    <p>Development of ImageVis3D is sponsored by the NIH/NCRR Center for Integrative Biomedical Computing (CIBC), and the
    DOE Visualization And Analytics Center for Enabling Technologies (VACET).</p>
  en_GB: >-
    <p>ImageVis3D is a volume rendering application specifically designed to render large data.  This is achieved by splitting
    the dataset into multiple levels of detail (LoD), with each level itself decomposed into multiple bricks (atomic rendering
    primitive).  Interaction occurs at the coarsest LoD, which can be rendered instantaneously on almost all modern systems. 
    After a configurable delay, ImageVis3D will successively render finer levels of detail, until the data are visible at
    their native resolution.</p>

    <p>Development of ImageVis3D is sponsored by the NIH/NCRR Center for Integrative Biomedical Computing (CIBC), and the
    DOE Visualization And Analytics Center for Enabling Technologies (VACET).</p>
  it: >-
    <p>ImageVis3D è un&apos;applicazione per il rendering volumetrico progettata specificamente per grandi quantità di dati.
    Questo è ottenuto suddividendo l&apos;insieme dei dati in più LoD (levels of detail, livelli di dettaglio), con ogni livello
    a sua volta scomposto in più blocchetti (primitive di rendering atomiche). Le interazioni avvengono sul LoD più grezzo,
    di cui può essere fatto il rendering istantaneamente su quasi tutti i sistemi moderni. Dopo un ritardo configurabile,
    ImageVis3D farà successivamente il rendering di livelli di dettaglio più precisi, fino a che i dati saranno visibili alla
    loro risoluzione nativa.</p>

    <p>Lo sviluppo di ImageVis3D è sponsorizzato dal NIH/NCRR Center for Integrative Biomedical Computing (CIBC) e dal DOE
    Visualization And Analytics Center for Enabling Technologies (VACET).</p>
  da: >-
    <p>ImageVis3D er et optegningsprogram for volumener specifikt designet til at optegne store datasæt. Dette opnås ved at
    opdele datasættene i flere detaljeniveauer (LoD), hvor hvert niveau i sig selv er opdelt i flere sten (atomisk optegningsprimitiver).
    Interaktion opstår på den groveste LoD, som kan gengives øjeblikkeligt på næsten alle moderne systemer. Efter en forsinkelse,
    der kan konfigureres, vil ImageVis3D successivt gengive finere niveauer af detaljer, indtil data er synlige på deres standardopløsning.</p>

    <p>Udvikling af ImageVis3D er sponsoreret af NIH/NCRR Center for Integrative Biomedical Computing (CIBC) og DOE Visualization
    And Analytics Center for Enabling Technologies (VACET).</p>
  en_AU: >-
    <p>ImageVis3D is a volume rendering application specifically designed to render large data.  This is achieved by splitting
    the dataset into multiple levels of detail (LoD), with each level itself decomposed into multiple bricks (atomic rendering
    primitive).  Interaction occurs at the coarsest LoD, which can be rendered instantaneously on almost all modern systems. 
    After a configurable delay, ImageVis3D will successively render finer levels of detail, until the data are visible at
    their native resolution.</p>

    <p>Development of ImageVis3D is sponsored by the NIH/NCRR Center for Integrative Biomedical Computing (CIBC), and the
    DOE Visualization And Analytics Center for Enabling Technologies (VACET).</p>
Categories:
- Education
- Science
- DataVisualization
- ImageProcessing
- MedicalSoftware
Keywords:
  C:
  - scientific visualization
  - ' scientific computing'
  - ' ray tracing'
  - ' ray-tracing RT'
  - ' image analysis'
  - ' computational field problems'
  - ' inverse problems'
  - ' forward problems'
  - ' adaptive methods'
  - ' isosurface extraction'
  - ' vector field'
  - ' tensor field'
  - ' volume rendering'
  - ' parallel rendering'
  - ' glyphs'
  - ' immersive environments'
  - ' haptics'
  - ' image processing'
  - '  problem solving environments PSE PSEs'
  - ' common component architecture CCA'
  - '  collaborative environments'
  - ' medical imaging'
  - ' biological imaging'
  - ' seismic imaging'
  - ' combustion'
  - ' geoscience'
  - ' SCIRun'
  - ' BioPSE'
  - ' Teem'
  - ' VisTrails'
  - ' ITK'
  - ' computational science'
  - ' computational engineering'
  - ' fusion'
  - ' Uintah'
  - ' computational fluid dynamics CFD'
Icon:
  cached:
  - name: imagevis3d_imagevis3d.png
    width: 64
    height: 64
Launchable:
  desktop-id:
  - imagevis3d.desktop
Provides:
  mimetypes:
  - application/x-imagevis3d