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EUMEDGRID & EUChinaGRID Federico Ruggieri EB INFN-GRID Bologna 29 Agosto 2006 Obiettivi Principali • Esportare le Griglie ed il Middleware di EGEE in altre regioni o paesi (Area Mediterraneo e Cina). • Stimolare la creazione di infrastrutture GRID regionali (Mediterraneo) • Supportare l’interoperabilità delle infrastrutture GRID esistenti e nascenti (Cina e Mediterraneo). • Supportare l’estensione delle applicazioni GridEnabled di EGEE (LHC, ecc.) alle aree di interesse. • Abilitare nuove comunità scientifiche all’uso di tecnologie ed infrastrutture GRID. • Favorire l’uso di nuove applicazioni che siano GRIDEnabled. Status & Numbers • Entrambi i Progetti sono Specific Support Action (SSA). • Sono partiti il 1 Gennaio 2006. • La durata è di 24 Mesi (finiranno il 31.12.2007). • Alcuni partners in comune: INFN, CERN, GARR, GRNET. • Contributo EU di 1,646,500 € (EUMEDGRID) e 1,299,998 € (EUChinaGRID). • Sedi INFN direttamente coinvolte: Roma3, Catania, CNAF. FP6−2004−Infrastructures−6-SSA-026024 [Empowering eScience across the Mediterranean] EUMEDGRID FP6−2004−Infrastructures−6-SSA-026024 www.eumedgrid.org FP6−2004−Infrastructures−6-SSA-026024 Participants Participant Participant name number 1 INFN (Italy) Coordinator 2 CERN (Switzerland) 3 CYNET (Cyprus) 4 DANTE (UK) 5 GARR (Italy) 6 GRNET (Greece) 7 RED.ES (Spain) 8 University of Malta (Malta) 9 CERIST (Algeria) 10 CNRST (Morocco) 11 EUN (Egypt) 12 HIAST (Syria) 13 MRSTDC (Tunisia) 14 TUBITAK - ULAKBIM (Turkey) FP6−2004−Infrastructures−6-SSA-026024 Third Parties Third Party Partner Università di Messina – Dipartimento di Matematica (IT) INFN Dipartimento di Fisica – Università di RomaTre (IT) INFN CRS4 – (IT) GARR ICTP – (IT) INFN IUCC (Inter University Computing Center) - ISRAEL GARR Laboratoire CRISTAL - Ecole Nationale des Sciences de l'Informatique (TU) MRSTDC Research Unit of Technologies of Information and Communication -University of Tunis (TU) MRSTDC Bilkent University (TK) TUBITAK JUNet, Jordan GRNET PADI2, Palestine GRNET Institute of Communication and Computer Systems, Athens, Greece GRNET FP6−2004−Infrastructures−6-SSA-026024 EUMEDGRID WP’s WP1: Project administrative and technical management WP2: Requirement capture and analysis • User profiles and Applications • Universities & Research Centres potentially interested WP3: Pilot infrastructure deployment and operations • Support pilot national grid infrastructure and services. WP4: Applications support • EGEE supported applications (LHC, BioMed, etc.) • Regional applications (Geology, Management of water, etc.) • New applications (to be discovered by WP2). WP5: Training and dissemination FP6−2004−Infrastructures−6-SSA-026024 WP2 - The Survey: Structure Section A: General Section B: Experience with grid technologies Section C: Applications Section D: Software Section E: Hardware Section F: Training Section G: Other feedback FP6−2004−Infrastructures−6-SSA-026024 WP2 - The Survey: Responses Country Algeria Cyprus Egypt Israel Jordan Malta Morocco Palestine Syria Tunisia Turkey Total Frequency 42 5 1 3 3 6 21 3 2 4 6 96 Percent 43.8% 5.2% 1% 3.1% 3.1% 6.3% 21.9% 3.1% 2.1% 4.2% 6.3% 100% FP6−2004−Infrastructures−6-SSA-026024 The Survey: Some Numbers Average of 8-9 responses per country • Higher than average response in Algeria and Morocco • Promotion is required to raise interest in grids and EUMEDGRID 40.9% of respondents unaware whether an NGI exists in their country 64% of respondents are interested in the creation of a national grid initiative 73% of respondents believe that they can benefit from grid computing; 25.8% are unaware of how 80.2% of respondents believe grids would allow them to tackle larger/more complex problems; 19.8% are unsure HEP, Biomedicine and Computational Chemistry were identified as the principal application areas FP6−2004−Infrastructures−6-SSA-026024 The Survey: Some Numbers Only 20.4% of respondents have used grids 47.9% of current grid users are basic users; 32.9% are normal users; 19.2% are advanced users 39.7% of respondents currently use parallel computing Respondents tend to associate grids with HPC, not VCE and instrument control 12.5% of respondents have attended grid computing training Training facilities are available in all 11 beneficiary countries Current computing infrastructure largely Intel/Microsoft-based, with few instances of Scientific Linux FP6−2004−Infrastructures−6-SSA-026024 EUMEDGRID Infrastructure FP6−2004−Infrastructures−6-SSA-026024 EUMEDCONNECT Network Country Name of NREN International Research Connectivity (in Mbps) Status Algeria CERIST 155 In service Cyprus CYNET 200 In service Egypt EUN 34 In service Israel IUCC 622 In service Jordan UniCo 45 In service Malta University of Malta 20 In service Morocco CNRST 34 In service Palestinian Territories PADI2 45 In service Syria HIAST 8 In service Tunisia RFR 45 In service Turkey ULAKBIM 155 In service Guided User Registration FP6−2004−Infrastructures−6-SSA-026024 procedure FP6−2004−Infrastructures−6-SSA-026024 WP2 Questionnaire for requirements capture and analysis finalized and widely advertised. 97 answers received in less than two months (the number of answers varies a lot as a function of countries). First draft of D2.1 already circulated by our colleagues at UoM. It’s a monumental work! Etremely good “inventory” of e-Science in the Mediterranean Area. FP6−2004−Infrastructures−6-SSA-026024 INFN CA Registration Authorities Documentation for FP6−2004−Infrastructures−6-SSA-026024 sysadmins TheFP6−2004−Infrastructures−6-SSA-026024 e-Infrastructure (1/2) New Site ! MA-01-CNRST TheFP6−2004−Infrastructures−6-SSA-026024 e-Infrastructure (2/2) EuMedGrid Real Time Monitor (http://gridportal.hep.ph.ic.ac.uk/rtm/running_frame.ht FP6−2004−Infrastructures−6-SSA-026024 ml) EuMedGrid Acceptable Use Policy FP6−2004−Infrastructures−6-SSA-026024 EuMedGrid VOMS FP6−2004−Infrastructures−6-SSA-026024 (https://voms2.cnaf.infn.it:8443/voms/eumed/) Users’ and Sysadmins’ Support System FP6−2004−Infrastructures−6-SSA-026024 FP6−2004−Infrastructures−6-SSA-026024 Applications WP4 was not expected to work while WP2 was acting but we need anyway to prepare the roadmap for the next months. In particular, we need to: • authorize the EGEE VO’s of the applications we need/want to deploy on all EuMedGrid sites; • deploy the EGEE applications; • deploy the EuMedGrid-specific applications already identified; • define the process to get new applications “on board”. FP6−2004−Infrastructures−6-SSA-026024 Known applications SPECFEM3D: simulates global and regional (continental-scale) seismic wave propagation Groundwater Hydrology Application: Modeling seawater intrusion in coastal aquifers GridSPN: Tool for the analysis of NonMarkovian Stochastic Petri Nets (NMSPN) GRIDVideo: To adopt Grid technologies to deliver services to end users FP6−2004−Infrastructures−6-SSA-026024 SWIMED Groundwater modeling 4.07E+06 Aim: estimate sustainable extraction scheme - improve management 4.06E+06 CODESA-3D: Density-dependent 3D coupled groundwater flow and transport simulations Data requirement • • • • Geology Topography Meteorology Water extraction by the farmer • Aquifer properties • Soil maps • Land use 4.05E+06 4.04E+06 N H [m.a.s.l] 160 120 80 40 20 10 5 0 -2 6.60E+05 6.70E+05 6.80E+05 One simulated map of water levels FP6−2004−Infrastructures−6-SSA-026024 Dissemination material Several documents advertising the Project have been produced (http://documents.eumedgrid.org/?c=Disse mination+materials&as=0&ln=en). Official brochure and poster have been prepared expressly for TNC2006 (have a look at them at the EuMedGrid booth). First Project’s gadgets produced (don’t forget to take one to bring back home). EUChinaGRID FP6−2004−Infrastructures−6-SSA-026634 http://www.euchinagrid.org Participants 1 Istituto Nazionale di Fisica Nucleare – INFN (IT) (coordinator) 2 European Organisation for Nuclear Research CERN (CH) 3 Dipartimento di Biologia - Università di Roma Tre (IT) 4 Consortium GARR (IT) 5 Greek Research & Technology Network (GR) 6 Jagiellonian University, Cracow (PL) 7 School of Computer Science and Engineering – Beihang University Beijing (CN) 8 Computer Network Information Center, Chinese Academy of Sciences – Beijing (CN) 9 Institute of High Energy Physics, Beijing (CN) 10 Peking University – Beijing (CN) Third Parties ACADEMIA SINICA GRID COMPUTING CENTRE (ASGC), TAIPEI (Partner: CERN) Physics Department – UNIVERSITÀ DI ROMATRE – ROMA (Partner: INFN) EUChinaGRID WP’s WP1 – Project Administrative and Technical Management WP2 – Network planning and interoperability study • Specific activity to study IPv4/IPv6 GRID interoperability. WP3 – Pilot infrastructure operational support • Specific activity to study interoperability between EGEE & CNGrid. WP4 – Applications • EGEE applications (LHC, Bio, etc.) • ARGO-YBJ and Gamma Ray Bursts • Never Born Proteins WP5 – Dissemination • Dissemination of advanced knowledge on Grid technologies. TEIN2 ORIENT will upgrade to 2.5 Gbps CNGrid Grid Middleware and IPv6 Mini-Workshop held on 13 June 2006 at IHEP (Beijing). EGEE MW is not at all IPv6 compliant due to both internal and external code. Dedicated workshop in the next EGEE conference in Geneva (25-29 September ’06) CNGrid MW is not yet IPv6 compliant but code modification and external packages update is under work to reach complete compatibility. A Web Portal will contain: A list of the mw components and external packages that are declared to be IPv6 compliant. A short manual on how to produce IPv6 compliant software A simple code checker that will allow to discover non-compliant parts of code in a source file. EGEE and CNGRID interoperability gLite and GOS are based on a completely different architecture. A gateway will be developed in Beihang University to allow the job submission service as a first trial. Interoperation is in preliminary study phase. ARGO – YBJ Laboratory • Unique High Altitude Cosmic Ray Laboratory (4300 m) Tibet, 90 km North to Lhasa. Chinese-Italian collaboration. • The Experiment data rate to be transferred is 250 TB/Year requiring a steady transfer rate of the order of 100 Mbps to Beijing and from there to Italy. Never Born Proteins The number of natural proteins on Earth, although apparently large, is only a tiny fraction of the possible ones: • with 20 different co-monomers (the 20 different natural aminoacids), a polypeptide chain with 60 residues (n=60) can exist in 2060 different chain structures. • In nature, we have around 1013-14 different proteins, so that the ratio between the possible and the actual number is staggeringly large. This means that there is an astronomically large number of proteins that have never been seen on Earth - an incredibly large number of “never born proteins” (NBP). The present research in the field is based on a computational approach to study a large library of NBP (109 protein sequences) to the aim of clarifying the structural principles that characterize them and of selecting a reasonable number of sequences which can potentially give rise to stably folded proteins. Real Time Monitor GridIce Richieste 2007 • EUChinaGRID ed EUMEDGRID hanno un forte coinvolgimento estero e necessitano di una quantità di Missioni Est. abbastanza rilevante. • Continuerà l’attività di tutoraggio (soprattutto nei primi sei mesi); cercheremo di effettuare un certo numero di training in Italia. • L’attività critica sarà quella del supporto alle applicazioni. • Per EUMED sarà critico lo sviluppo di iniziative Grid Nazionali. • Per EUChina sono fondamentali le attività di compatibilità IPv6 e di interoperabilità gLite-GOS. Spese 2006 (Roma Tre) Missioni Estere Preventivo GRID Euchina EUMED Servizi Totale Spesi Previsione Finanziamento 4,271.07 7,123.34 4,023.61 1,056.28 16,474.30 2,135.54 3,561.67 2,011.81 0.00 7,709.01 19,000.00 19,000.00 Missioni Interne Preventivo GRID Euchina EUMED Totale Spesi Previsione Finanziamento 4,075.93 496.24 2,737.13 7,309.30 2,037.97 248.12 1,368.57 3,654.65 12,000.00 12,000.00 Preventivo 2007 in k€ RM3 CT CNAF Missioni Estere 30 40 20 Missioni Interne 15 16 15 Consumo 10 10 10 Inventariabile 10 20 10