Difference between revisions of "Data Management"

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== Telescopic Approach ==  
 
== Telescopic Approach ==  
[[Telescopic Approach]]
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The project aims at investigating the design and implementation of multi-layered algorithmic and software framework for 3D tetrahedral parallel mesh generation. The framework is referred as the [[Telescopic Approach]]
  
 
== Exascale-Era Finite Element Mesh Generation  ==
 
== Exascale-Era Finite Element Mesh Generation  ==

Revision as of 14:39, 30 August 2019

Next-generation imaging filters and mesh-based data representation for phase-space calculations in nuclear femtography

Tomographic and recently aquired and tessellated pictures of the nucleon as a result of this project. Namely, the plots show a spatial distribution of up quarks as a function of proton's momentum fraction carried by those quarks. Specifically, bX and bY are the spatial coordinates (in 1/GeV = 0.197 fm) defined in a plane perpendicular to the nucleon’s motion, x is the fraction of proton’s momentum and color denotes probability density for finding a quark at given (bX, bY, x).

Plots produced by Dr. Gagik Gavalian and Dr. Pawel Sznajder and tesselated by CRTC's Image-to-Mesh (I2M) conversion software deployed to Jefferson Lab last month.

For more data and information about this project follow this link: CNF

Telescopic Approach

The project aims at investigating the design and implementation of multi-layered algorithmic and software framework for 3D tetrahedral parallel mesh generation. The framework is referred as the Telescopic Approach

Exascale-Era Finite Element Mesh Generation

CDT3D pipeline.png

Boundary Recovery

Boundary Recovery

Isotropic Mesh Generation

Isotropic Mesh Generation

Anisotropic Mesh Generation

Anisotropic Mesh Generation

Runtime Systems

Runtime Systems