Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 Grid in STAR: Needs and Plans A. Vaniachine STAR Grid Components in STAR: Experience, Needs and Plans A. Vaniachine Lawrence Berkeley National Laboratory.

Published byRose James Modified over 8 years ago

Similar presentations

Presentation on theme: "1 Grid in STAR: Needs and Plans A. Vaniachine STAR Grid Components in STAR: Experience, Needs and Plans A. Vaniachine Lawrence Berkeley National Laboratory."— Presentation transcript:

1 1 Grid in STAR: Needs and Plans A. Vaniachine STAR Grid Components in STAR: Experience, Needs and Plans A. Vaniachine Lawrence Berkeley National Laboratory July 14, 2000 PPDG Workshop, Argonne

2 2 Grid in STAR: Needs and Plans A. Vaniachine STAR Outline STAR is taking data: Grid in analysis Grid for production? Plans

3 3 Grid in STAR: Needs and Plans A. Vaniachine STAR Decisions Taken Event split into components: –daq (raw data) or fzd (Geant3) –dst: legacy C-structures –event: same info in OO –tags: like an n-tuple –hist: for QA –... ROOT-based Architecture –Persistency: STL containers - structural and reference schema evolution –Analysis: “good-bye” PAW

4 4 Grid in STAR: Needs and Plans A. Vaniachine STAR Grid Components Deployed for Analysis tag database: to speed up user response –data in ROOT TTree files (n-tuple): data description stored together with the data (solves the schema evolution problem) comments preserved 2-level hierarchy: 500 tags are in seven groups split mode for structures (not objects: no need to load classes to analyze tags) indexed tags (Grand Challenge deployed) –efficient cache management –transparent user access to HPSS in principle, to the raw data as well: “the Dream” is coming true

5 5 Grid in STAR: Needs and Plans A. Vaniachine STAR Component-based Architectures Grand Challenge: –large size components one component per developer NOVA: –smaller-size components one components per task Needed: small components, easily adaptable to experiments e.g., “ls” for the HPSS

6 6 Grid in STAR: Needs and Plans A. Vaniachine STAR Grid Components for Production? $$$ constraints have to use low- cost commodity components: latency tolerant algorithms have to load all distributed nodes: sustained data transfer methods have to use HPPS data storage: efficient cache management transparent user access

7 7 Grid in STAR: Needs and Plans A. Vaniachine STAR Plans for PPDG Deploy file transfer methods for the BNL-LBNL link current rate: rcf  pdsf = 100 GB/day Managed file caching for high- throughput computing –pdsf as a development test-bed –rcf as a target for deployment

Download ppt "1 Grid in STAR: Needs and Plans A. Vaniachine STAR Grid Components in STAR: Experience, Needs and Plans A. Vaniachine Lawrence Berkeley National Laboratory."

Similar presentations

Foundations for an LHC Data Grid Stu Loken Berkeley Lab.

Foundations for an LHC Data Grid Stu Loken Berkeley Lab.
The File Mover: An Efficient Data Transfer System for Grid Applications C. Anglano, M. Canonico Dipartimento di Informatica Universita' del Piemonte Orientale,

The File Mover: An Efficient Data Transfer System for Grid Applications C. Anglano, M. Canonico Dipartimento di Informatica Universita' del Piemonte Orientale,
23/04/2008VLVnT08, Toulon, FR, April 2008, M. Stavrianakou, NESTOR-NOA 1 First thoughts for KM3Net on-shore data storage and distribution Facilities VLV.

23/04/2008VLVnT08, Toulon, FR, April 2008, M. Stavrianakou, NESTOR-NOA 1 First thoughts for KM3Net on-shore data storage and distribution Facilities VLV.
Peer-to-Peer Networks as a Distribution and Publishing Model Jorn De Boever (june 14, 2007)

Peer-to-Peer Networks as a Distribution and Publishing Model Jorn De Boever (june 14, 2007)
David Adams ATLAS DIAL Distributed Interactive Analysis of Large datasets David Adams BNL March 25, 2003 CHEP 2003 Data Analysis Environment and Visualization.

David Adams ATLAS DIAL Distributed Interactive Analysis of Large datasets David Adams BNL March 25, 2003 CHEP 2003 Data Analysis Environment and Visualization.
Grid Collector: Enabling File-Transparent Object Access For Analysis Wei-Ming Zhang Kent State University John Wu, Alex Sim, Junmin Gu and Arie Shoshani.

Grid Collector: Enabling File-Transparent Object Access For Analysis Wei-Ming Zhang Kent State University John Wu, Alex Sim, Junmin Gu and Arie Shoshani.
Grids and Grid Technologies for Wide-Area Distributed Computing Mark Baker, Rajkumar Buyya and Domenico Laforenza.

Grids and Grid Technologies for Wide-Area Distributed Computing Mark Baker, Rajkumar Buyya and Domenico Laforenza.
Figure 1.1 Interaction between applications and the operating system.

Figure 1.1 Interaction between applications and the operating system.
David Adams ATLAS DIAL Distributed Interactive Analysis of Large datasets David Adams BNL June 23, 2003 GAE workshop Caltech.

David Adams ATLAS DIAL Distributed Interactive Analysis of Large datasets David Adams BNL June 23, 2003 GAE workshop Caltech.
Magda – Manager for grid-based data Wensheng Deng Physics Applications Software group Brookhaven National Laboratory.

Magda – Manager for grid-based data Wensheng Deng Physics Applications Software group Brookhaven National Laboratory.
2/10/2000 CHEP2000 Padova Italy The BaBar Online Databases George Zioulas SLAC For the BaBar Computing Group.

2/10/2000 CHEP2000 Padova Italy The BaBar Online Databases George Zioulas SLAC For the BaBar Computing Group.
M i SMob i S Mob i Store - Mobile i nternet File Storage Platform Chetna Kaur.

M i SMob i S Mob i Store - Mobile i nternet File Storage Platform Chetna Kaur.
Alexandre A. P. Suaide VI DOSAR workshop, São Paulo, 2005 STAR grid activities and São Paulo experience.

Alexandre A. P. Suaide VI DOSAR workshop, São Paulo, 2005 STAR grid activities and São Paulo experience.
David Adams ATLAS DIAL Distributed Interactive Analysis of Large datasets David Adams BNL July 15, 2003 LCG Analysis RTAG CERN.

David Adams ATLAS DIAL Distributed Interactive Analysis of Large datasets David Adams BNL July 15, 2003 LCG Analysis RTAG CERN.
Miguel Branco CERN/University of Southampton Enabling provenance on large-scale e-Science applications.

Miguel Branco CERN/University of Southampton Enabling provenance on large-scale e-Science applications.
A User’s Introduction to the Grand Challenge Software STAR-GC Workshop Oct 1999 D. Zimmerman.

A User’s Introduction to the Grand Challenge Software STAR-GC Workshop Oct 1999 D. Zimmerman.
100 Million events, what does this mean ?? STAR Grid Program overview.

100 Million events, what does this mean ?? STAR Grid Program overview.
NoSQL Databases Oracle - Berkeley DB. Content A brief intro to NoSQL About Berkeley Db About our application.

NoSQL Databases Oracle - Berkeley DB. Content A brief intro to NoSQL About Berkeley Db About our application.
Grid Status - PPDG / Magda / pacman Torre Wenaus BNL U.S. ATLAS Physics and Computing Advisory Panel Review Argonne National Laboratory Oct 30, 2001.

Grid Status - PPDG / Magda / pacman Torre Wenaus BNL U.S. ATLAS Physics and Computing Advisory Panel Review Argonne National Laboratory Oct 30, 2001.
PPDG and ATLAS Particle Physics Data Grid Ed May - ANL ATLAS Software Week LBNL May 12, 2000.

PPDG and ATLAS Particle Physics Data Grid Ed May - ANL ATLAS Software Week LBNL May 12, 2000.

Similar presentations

Ads by Google