Difference between revisions of "NA-MIC/Projects/NA-MIC Kit/Grid Computing"
From NAMIC Wiki
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'''Links:''' | '''Links:''' | ||
| + | * [[2007_Project_Half_Week#Projects|Project Introductions]] - [[media:2007_Project_Half_Week_GridExecution.ppt| 4-block PPT Jan 2007]] | ||
* [[2006_Project_Week_MIT_Grid_Integration|2006 Programming Week Project Page]] | * [[2006_Project_Week_MIT_Grid_Integration|2006 Programming Week Project Page]] | ||
* [[Slicer3:Grid_Interface|Slicer3:Grid_Interface]] | * [[Slicer3:Grid_Interface|Slicer3:Grid_Interface]] | ||
* [[Slicer3:Execution_Model|Slicer3:Execution_Model]] | * [[Slicer3:Execution_Model|Slicer3:Execution_Model]] | ||
* [[Slicer3:Large_scale_experiment_control_brainstorming]] | * [[Slicer3:Large_scale_experiment_control_brainstorming]] | ||
Revision as of 19:19, 26 April 2007
Home < NA-MIC < Projects < NA-MIC Kit < Grid ComputingBack to NA-MIC_Collaborations
Objective:
- Enable Slicer3 to execute work in a distributed grid environment
- Enable NA-MIC algorithms to be tested in a distributed grid environment
Progress:
- Installed and updated grid infrastructure components: namic-srb submit machine, implemented configuration for Condor/Globus/GSI to allow NA-MIC users access to 64 node cluster.
- Defined Data Execution Model for Slicer3 - The purpose of this is to facilitate a "run-everywhere" philosophy for algorithm writers. If NAMIC adopts a standard for algorithm "self-description" that is followed when command line executables are written, Slicer, the grid, clusters, etc... should be able to use the executables directly in their environment.
- Defined API for the Grid Interface - based on the execution model, this API enables the running of algorithms in a distributed grid environment
Key Investigators:
- UCSD BIRN-CC: Jeffrey Grethe, Neil Jones
- GE: Dan Belzek, Jim Miller
- Isomics: Steve Pieper
Links:
