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Presented at eChallenges e-2009 Conference , Istanbul, Turkey, 21st October 2009.
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Session 3g, 21st October 2009 eChallenges e-2009 Copyright 2009 SEEGRID-SCI
Challenges Faced in Building aVirtual Organization for Seismology
in South Eastern Europe
Can Özturan
Bilal Bektaş, Mehmet Yılmazer
Boğaziçi University, Istanbul and
Cevat Şener
Middle East Tech. University, Ankara
Turkey
Session 3g, 21st October 2009 eChallenges e-2009 Copyright 2009 SEEGRID-SCI
Motivation for a Seismology Virtual Org.
Investments worth billions of euros
InterestedOrganizations
Many Users
Software Costs Realistic Models
Grid e-Infrastructures
Massive Seismology Data and
ComputationalPower
Decision Support SystemsSoftware
Knowledge workers Engineers, Researchers
Insurance companies, Municipalities, Governmental Institutes , Civil engineering, Seismology / Earthquake
Departments in Universities
Construction of highways, bridges, dams and factories, Insurance premiums, Renovation of risky structures, Construction standards
Emergency response after earthquakes
Session 3g, 21st October 2009 eChallenges e-2009 Copyright 2009 SEEGRID-SCI
Motivation for a Seismology Virtual Org.
• Attract knowledge workers / researchers to use e-infrastructures • According to Roberto Barbera, University of Catania and INFN
– EC funding for EGEE-III : 1.4 k€ per user per year (11.7 k users)– EC funding GEANT3 : 0.8 € per user per year (30 M users ) – Reference (EGEE 09 Conference, Barcelona):
http://indico.cern.ch/materialDisplay.py?contribId=214&sessionId=60&materialId=slides&confId=55893
Session 3g, 21st October 2009 eChallenges e-2009 Copyright 2009 SEEGRID-SCI
Research Objectives
• Serve massive seismology data on EGEE grid• Gridify seismology applications• Build seismology VO application services• Promote collaborations among researchers • Train interested researchers
Session 3g, 21st October 2009 eChallenges e-2009 Copyright 2009 SEEGRID-SCI
Research Objectives
Collaborating Organizations CountryPolytechnic University of Tirana AlbaniaNational Academy of Sciences of Armenia ArmeniaSeismological Department, in Geophysical Institute of BAS BulgariaDepartment of Geophysics in Institute of Geography and Earth Sciences of Eötvös Loránd University
Hungary
Seismological Observatory of Geodetic and Geophysical Research Institute of Hungarian Academy of Sciences
Hungary
Faculty of Natural Sciences and Mathematics of University of Ss. Cyril and Methodius
FYR of Macedonia
Institute of Geology and Seismology of ASM MoldovaSeismological Survey of Serbia SerbiaKandilli Observatory and Earthquake Research Institute,Dept. of Computer Engineering , Boğaziçi University
Turkey
Middle East Technical University Turkey
Session 3g, 21st October 2009 eChallenges e-2009 Copyright 2009 SEEGRID-SCI
Research Approach and Methodology
• Use distributed storage and serving of data• Index and organize data logically
– Aim data location independence
• Build Programming tools for accessing data – called Virtual Organization Specific Iterators
• Gridify six seismology applications
Session 3g, 21st October 2009 eChallenges e-2009 Copyright 2009 SEEGRID-SCI
Research Approach and Methodology
SEE Country 1
Applications
Programming tool (Data Iterators)
Earthquake and seismic waveform data
Earthquake and seismic waveform data
Earthquake and seismic waveform data
SEE Country 2 SEE Country n...
Distributed storage and indexing of data on grid using AMGA
NERIES / ORFEUS Datacanter
All European Countries
Session 3g, 21st October 2009 eChallenges e-2009 Copyright 2009 SEEGRID-SCI
Research Approach and Methodology
• Seismology applications – Seismic Risk Assessment (Turkey)
– Numerical Modeling of Mantle Convection (Hungary)
– Fault Plane Solution (Turkey)
– Earthquake Location Finding (Turkey)
– Massive Digital Seismological Signal Processing (Macedonia)
– Seismic data server application service (Turkey)
Session 3g, 21st October 2009 eChallenges e-2009 Copyright 2009 SEEGRID-SCI
Major Outcomes and Results
• 2.44 TB of data collected from roughly 100 stations• Seismic data iterators developed • Interface to NERIES/ORFEUS datacenter built• Applications gridified by collaborating teams• Dissemination, training and publication activites performed
Session 3g, 21st October 2009 eChallenges e-2009 Copyright 2009 SEEGRID-SCI
Major Outcomes and Results
Session 3g, 21st October 2009 eChallenges e-2009 Copyright 2009 SEEGRID-SCI
Major Outcomes and Results
Session 3g, 21st October 2009 eChallenges e-2009 Copyright 2009 SEEGRID-SCI
Conclusion and outlook
• Engineering/scientific curriculums include programming classes (C/Fortran/C++)
• Address engineers’/scientists’ needs by providing data iterators• Iterators relieve the user from the need to learn XML, web services,
parsing, etc...• Iterators
– Take couple of hours to learn
– Targets power users (scientists/researcher)
– Provides flexibility, performance
– Requires minor coding changes in legacy codes
• XML, web services, parsers– Take days, months to learn