| At line 11 added 2 lines. |
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| - !Notes from the kepler breakout meeting on 11/3/04 |
| + !!Notes from the kepler breakout meeting on 11/3/04 |
| Lines 85-86 were replaced by lines 87-88 |
| - ** start with Matt's Red Spruce integration example (Shawn, Matt) |
| - ** then work through increasingly complex examples (e.g., Cox's biodiv data) (Shawn, Matt, others) |
| + ** start with Matt's Red Spruce integration example (Shawn, Matt, Mark) |
| + ** then work through increasingly complex examples (e.g., Cox's biodiv data) (Shawn, Matt, Mark, others) |
| Line 89 was replaced by lines 91-102 |
| - * Finish task list for additional features that need to be completed (Matt, Bertram, Shawn) |
| + * Finish task list for additional features that need to be completed (Matt, Bertram, Shawn, Mark) |
| + |
| + ! Kepler and distributed computation |
| + # "XKepler", ability to disassociate UI event stream from execution engine so that the UI (Vergil) can come and go, and the UI subscribes to UI event streams that might be buffered in a real-time system like ORB, and handles messages like GeoVista does for UI events and coordination |
| + # Distributed computation and grid computing |
| + * Two general approaches to be explored |
| + ** Kepler interface to existing distributed job system like GT/NIMROD/CONDOR |
| + ** New Kepler director that is "distributed aware" and knows how to schedule and invoke remote jobs though one of several services: |
| + *** ptexecute on the remote node |
| + *** a web/grid service on the remote node |
| + *** a managed job on the remote node (cf GT2.x jobs) |
| + ** Peer to peer style sharing of computation resources (possibly another grant) |
