Backgroundhttp://exaviz.simlab.ibpc.fr/index.php/exaaboutmenu/background2016-01-21T14:01:57+00:00Joomla! - Open Source Content ManagementState of the art2012-02-12T14:08:52+00:002012-02-12T14:08:52+00:00http://exaviz.simlab.ibpc.fr/index.php/exaaboutmenu/background/36-state-of-the-artMarc Baadenbaaden@smplinux.de<div class="feed-description"><p>The current state of the art can be summarized very simply with the conclusion of the 2010 SciDAC report: <em style="mso-bidi-font-style: normal;">"New, scalable, high-performance computational tools are essential"</em> [EXA10].<span style="color: #3366ff;">
</div><div class="feed-description"><p>The current state of the art can be summarized very simply with the conclusion of the 2010 SciDAC report: <em style="mso-bidi-font-style: normal;">"New, scalable, high-performance computational tools are essential"</em> [EXA10].<span style="color: #3366ff;">
</div>Positioning of the ExaViz project2012-02-12T14:07:33+00:002012-02-12T14:07:33+00:00http://exaviz.simlab.ibpc.fr/index.php/exaaboutmenu/background/35-positioning-of-the-exaviz-projectMarc Baadenbaaden@smplinux.de<div class="feed-description"><p>The goal of the ExaViz project is <strong style="mso-bidi-font-weight: normal;">to design advanced interactive visualization and analysis tools for massive data sets and computation results in the advent of exascale computing by deploying a modular and parallel software infrastructure</strong>. We specifically target scientific applications for manipulating and exploring simulations of complex biological objects or materials architectures at the nanoscopic scale.
</div><div class="feed-description"><p>The goal of the ExaViz project is <strong style="mso-bidi-font-weight: normal;">to design advanced interactive visualization and analysis tools for massive data sets and computation results in the advent of exascale computing by deploying a modular and parallel software infrastructure</strong>. We specifically target scientific applications for manipulating and exploring simulations of complex biological objects or materials architectures at the nanoscopic scale.
</div>Context, social and economic issues2012-02-12T14:02:46+00:002012-02-12T14:02:46+00:00http://exaviz.simlab.ibpc.fr/index.php/exaaboutmenu/background/34-context-social-and-economic-issuesMarc Baadenbaaden@smplinux.de<div class="feed-description"><p>The economic implications of the <strong style="mso-bidi-font-weight: normal;"><span style="text-decoration: underline;">bioinformatics</span></strong> sector were evaluated in 2005 by Business Communications Company [BCC05]. Rapid growth is forecast in the global bioinformatics market, with a value of approximately 3 billion euros in 2010 (see Figure below), and average annual growth of almost 16%.
</div><div class="feed-description"><p>The economic implications of the <strong style="mso-bidi-font-weight: normal;"><span style="text-decoration: underline;">bioinformatics</span></strong> sector were evaluated in 2005 by Business Communications Company [BCC05]. Rapid growth is forecast in the global bioinformatics market, with a value of approximately 3 billion euros in 2010 (see Figure below), and average annual growth of almost 16%.
</div>Context, position and objectives of ExaViz2012-02-12T13:59:30+00:002012-02-12T13:59:30+00:00http://exaviz.simlab.ibpc.fr/index.php/exaaboutmenu/background/33-context-position-and-objectives-of-exavizMarc Baadenbaaden@smplinux.de<div class="feed-description"><p>While the massive increase in computational power has made it possible to simulate large-scale molecular phenomena routinely producing huge and complex data sets and computation results, the ability of human users to deal with them has been trailing behind.
</div><div class="feed-description"><p>While the massive increase in computational power has made it possible to simulate large-scale molecular phenomena routinely producing huge and complex data sets and computation results, the ability of human users to deal with them has been trailing behind.
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