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KIOSK SIDE 1
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Applications and
Exploitation of the Grid |
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Monitor 1
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Monitor 2
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Plasma Display
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Presentation |
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Operating System
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Box 1: Windows
Box 2: Windows
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Abstract
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Using the Open Science Grid
Using grid technology, international collaborations use and share
computing and storage resources located close to home and across the
globe. Physics simulation and analysis, computer
science, astrophysics and biology research groups benefit from,
collaborate in and contribute to the Open Science Grid |
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Responsible Persons
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Fermi: Ruth Pordes, Michael Diesburg
Slac: Wilko Kroeger
Other: |
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KIOSK SIDE 2
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OSG Collaboration |
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Monitor 1
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OSG Edge Services - Abhishek Singh Rana |
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Monitor 2
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OSG and its partners |
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Monitor 3
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Monitor 4
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SGTW - what it is and how to
subscribe and contribute - Katie - do you think we can do this? |
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Operating System
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Box 1: Windows
Box 2: Windows |
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Abstract
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You Can Participate
Open Science Grid Consortium members participate in and contribute to a
unique distributed computing infrastructure. Scientists, middleware
developers and resource providers collaborate to develop and maintain
an open shared computing environment. |
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Responsible Persons
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Fermi: Ruth Pordes
Slac: Wilko Kroeger
Other: |
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KIOSK SIDE 3
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Trust and Security are Essential |
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Monitor 1
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VO Membership
- What is a VO?
- Establishing grid policies/service agreements with
resource providers
- VOMRS -> VOMS -> GUMS
- Account domains?
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Monitor 2
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Using the grid from the User perspective (Gabriele
Carcassi)
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Monitor 3
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The authorization flow
(basically the same steps as in the previous user perspective) showing
the data flow through the systems (Gabriele Carcassi)
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ppt presentation file |
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Monitor 4
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SRM authorization flow (Ahbishek)
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Operating System
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Box 1: Windows
Box 2: Windows |
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Abstract
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Protection and Trust
Secure access and protection for the resources, data and services of
the Open Science Grid are pivotal to creating trust between research
groups to share and use a common grid infrastructure. |
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Responsible Persons
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Fermi: John Weigand
Slac: Booker Bense
Other: Abhishek Rana (UCSD) |
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KIOSK SIDE 4
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Network |
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Monitor 1
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Bandwidth
Challenge |
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Monitor 2
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Bandwidth
Challenge |
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Monitor 3
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Networking
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Monitor 4
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Networking |
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Operating System
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Box 1: Scientific Linux
Box 2: Windows (requires special applications: VPN, Java 3D etc)
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Abstract
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Global Networks Enable Global Science
With scientific collaborations spanning the globe, worldwide networks
become the backbone of experimental data analysis. Data volumes that
would have challenged a local area network five years ago are now moved
across and between continents, and advanced applications store and move
data across a diverse and ever-changing collection of networks. |
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Responsible Persons
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Fermi: Matt Crawford
Slac: Les Cottrell
Other: |
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KIOSK SIDE 5
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Storage on the Grid |
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Monitor 1
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an xrootd demo. showing a demo
and monitoring, information about xrootd, description about srm xrootd.
not sure if anything will be working
in the srm xrootd area by sc2005 |
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Monitor 2
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data distribution from the slac
perspective. have a home grown system for local movement and the srb to
distribute files remotely. this will be a slide show |
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Monitor 3
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slide show - storage needs of
the grid, what is in use now with respect to fermi, plans for
future... includes SRM, storage use at fermi by physics and
non-physics community, cms, experiments |
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Monitor 4
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show live data movement,
dcache, srm, entv, cms, statistics... |
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Operating System
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Box 1: Scientific Linux
Box 2: Scientific Linux |
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Abstract
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Storing and Accessing Data
The needs of data intensive science approach exabyte-scale storage and
petabyte-scale data buffering. Wide area networks support data transfer
rates of tens of gigabits per second. Storage systems provide grid
access, management and protection of data. |
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Responsible Persons
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Fermi: Eileen Berman
Slac: Wilko Kroeger
Other: Paul Sheldon |
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KIOSK SIDE 6
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Scheduling, monitoring, accounting, interoperability etc |
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Monitor 1
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presentation on the use cases
to join OSG (resource providers, vo, service providers) |
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Monitor 2
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presentation on some of the on
going activities of OSG |
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Monitor 3
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browser pointed to
monalisa - Will take input and display information from the rest of the
booth (used for discussion) |
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Monitor 4
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browser pointed to
gridcat (used for discussion) |
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Operating System
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Box 1: Windows
Box 2: Windows |
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Abstract
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Services Make the System
Services provide the infrastructure, with middleware as the software,
which enables the use and operation of the Open Science Grid. Grid
technology is made transparent by inter-operation across different grid
infrastructures |
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Responsible Persons
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Fermi: Gabriel Garzoglio
Slac: Matteo Melani
Other: Univ. Wisconsin - Madison |
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KIOSK SIDE 7
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Applications
and Exploitation of the Grid |
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Monitor 1
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Monitor 2
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DAGS/TechX BaBar demo
Geant4 validation on the Grid from SLAC, OSG/LCG - Wilko |
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Plasma Display
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Presentation |
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Operating System
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Box 1: Windows
Box 2: Windows |
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Abstract
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Using the Open Science Grid
Using grid technology, international collaborations use and share
computing and storage resources located close to home and across the
globe. Physics simulation and analysis, computer
science, astrophysics and biology research groups benefit from,
collaborate in and contribute to the Open Science Grid |
|
Responsible Persons
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Fermi: Ruth Pordes, Michael Diesburg
Slac: Wilko Kroeger
Other: |
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