EUChinaGRID

1. EUChinaGRID Lanxin.Ma@cern.ch 马兰馨 Nov. 06, 2006

2. http://www.euchinagrid.org EUChinaGrid is an initiative to extend the European GRID infarstructure(EGEE) for e-Science to China What is EUChinaGrid

3. China is one of the fastest growing economies in the world with a specific infrastructure for Science GRID (CNGrid). • Many groups of scientists in Europe have already established good relationships with Chinese Research Groups. • Grids can provide an infrastructure to enhance the level of collaboration, deploying new applications and shared access to scientific data. • GRID is a reality which allows new ways of sharing resources (not all of them completely exploited) in scientific collaboration (eScience) and in other fields (eGovernment, eHealth, eBusiness, etc.) • EU has largely invested in GRID technology in the past 4 years and is planning to invest more in FP7. Why extend Grid Infrastructure to China

4. Main objective is to support the Interconnection and Interoperability of Grids between Europe and China. • Main focus is on two specific infrastructures: • CNGrid in China • EGEE in Europe • Dissemination of advanced knowledge in Grid technology is also a relevant part of the activity. • Strengthening the collaboration between scientific groups in both Countries, supporting existing and new Grid applications. EUChinaGrid Main Objectives

5. The project started on the 1st January 2006 • 24 Months duration • The Kick-off Meeting was being organised in Athens by GRNET 25-26 January 2006 • EU Contribution of 1,299,998 €. • A total of 495 Person Months (325 Funded). Timescale & Budget

6. Italy • INFN – Coordinator • Consortium GARR • China • CNIC • IHEP, Beijing • Peiking University • Beihang University • Switzerland • CERN • Greece • GRnet • Poland • Jiagiellionian University in Krakow Third parties -- ASGC (Taiwan) -- Department of Biology, University of Rome3 (Italy) Partners

7. WP1 – Project Administrative and Technical Management • WP2 – Network planning and interoperability study • Network connectivity • Specific activity to study IPv4/IPv6 GRID interoperability. • WP3 – Pilot infrastructure operational support • Specific activity to study interoperability between EGEE & CNGrid. • Operational support of Advanced Services • Promote new Asian Grid Infrastructure • WP4 – Applications • EGEE applications (LHC, Bio, etc.) • ARGO-YBJ and Gamma Ray Bursts(ARGO-YBJ/GRB) • Never Born Proteins(NBP) • WP5 – Dissemination • Project dissemination activities • Dissemination of advanced knowledge on Grid technologies • Promoting new communities EUChinaGrid WP’s

8. High energy physics: ATLAS & CMS experimrnts at LHC • Astrophysics: the Cosmic ray Experiment ARGO in Yangbajing (Tibet) • Biology: New kinds of Proteins Applications over EGEE

9. Applications: LHC Experiments

10. Applications: 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 155 Mbps to Beijing and from there to Italy.

11. 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 amino-acids), 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. Applications: Never Born Proteins

12. Rosetta ab initio protein structure prediction method NBP – First results • NBP2 - 1Trp exposed, 1 buried 2 SS bonds • NBP1 – 1Trp exposed 1 SS bond

13. Kick-Off Meeting in Athens, Greece, 25-26 Jan. 2006 • First Project Workshop in Beijing,China12-14 Jun. 2006 • First Project conference in Rome,Italy, 18 Sep. 2006 • Workshop in EGEE06 conference in Geneva, 26 Sep. 2006 • 3 tutorials • 2 of tutorials for Users and Site Managers in Beijing – China 3-7 Apr. 2006, 15-16 Jun. 2006 starting the creation of the core of Chinese trainers in the future events in China. • 1 tutorials for Users in Rome – Italy, 11-13 Sep. 2006 • Preliminary pilot infrastructure set-up (8 sites). • First applications requirements analysis started. • Dissemination in other conferences and in the press: a Chinese version of the project web site has been produced. Achievements in the first 10 months

14. Number of counties: 4 (China,Italy,Poland, Greece) • Number of sites: 8 • Number of CPUs: 472 • TBs of storage: 33 • User in EUChina VO: 21 • Migrated from LCG to gLite EUChina current infrastructure

15. Preliminary pilot infrastructure set-up (8 sites). • BEIJING-CNIC-LCG2-IA64 (Beijing, China) • BEIJING-LCG2 (Beijing, China) • CYFRONET-IA64 (Crakow, Poland) • CYFRONET-LCG2 (Crakow, Poland) • GR-01-AUTH (Athens, Greece) • INFN-CATALINA (Catania, Italy) • INFN-CNAF (Catania, Italy) • INFN-ROMA3 (Rome, Italy) • New site at Peking University in progress. EUChinaGrid Sites

16. Poland CNIC IHEP GRNet INFN Catania, CNAF, Roma3

17. BDII,WMS,EUChina VOMS,etc have been deployed • Support EUChina VO, 21 users • CA operational in China: IHEP, CNIC • WN > 253, SE ~ 33 TB • ROC: http://roc.euchinagrid.org • Monitoring GridICE,Gstat,Job Mornitoring,FTS Mornitoring,real Time Monitor, • SAM monitoring: https://euchina-sam.ihep.ac.cn/sam/sam.py • Ticketing system: https://support.euchinagrid.org/ • Migrated from LCG to gLite • VOMS backup service is in progress in CNIC EUChinaGrid current status

18. GridICE Monitoring

19. China National Grid • A key project supported by the National High-Tech R&D Program (the 863 program) • 4-year effort • May 2002 to Dec. 2005 • Earliest and largest Grid project in China • About 100 million government fund from the MOST of China • 2+ times associated funds from local governments, application organizations, and industry • CNGrid middleware: GOS2.0for supporting grid applications and Grid environment operation and management CNGrid

20. Interoperability can be implemented on different levels: • Soap message level • Message format translation • Security information extraction & translation • Service level • Batch job • Submit batch job to each other • It seems batch job level interoperability is most important between GOS and gLite • Information integrated • Aggregate service & resource information from different middleware • Provide query & update functions • Security mapping • Mapping user certificate and other security information between different middleware • Application level CNGrid & EGEE interoperability

21. A first base solution proposed • GOS and gLite submit jobs each other trough gateway • gateway to bridge different middleware together • resource information aggregating, publishing and querying • find simplest way to submit batch job to each other • Testbed has been established (gLite, GOS) • Workshop organized at EGEE06, 26th Sep, 2006 Interoperability Progress

22. Grid middleware running on China National Grid (CNGrid) which both support IPv6 and IPv4 • Promote CNGrid to use IPv6 backbone more effectively • Implement interoperable operation with European Grid middleware • Analysis of multi-protocol grid connectivity IPv6 – middleware under control: • Developer’s guide released • Code checker ready, but we have to run it on building system • New version IPv6 GOS will be running on most of CNGrid node • Set up two GOS nodes for test • Disscussed IPv4-IPv6 interoperibility on Workshop at EGEE06 IPv4-IPv6 interoperability: have started analysis IPv4-IPv6 Interoperability Status

23. EGEE application have been deployed or are being deployed on EUChina Sites. • CMS, ATLAS in IHEP • ARGO-YBJ: Data transfer system is in progress • Biology applications • Protein folding application by JUMC just ported on grid and running on EUChinaGRID • BUAA is porting its application to CNGrid and gLite Applications Status

24. EUChina SAM Status • EUChina SAM Server has been deployed in IHEP, Beijing https://euchina-sam.ihep.ac.cn/sam/sam.py • SAM server & client in IHEP • DB – Oracle in IHEP • standalone data scheme (the data related with sites notes come from EUChina top-level BDII) • Server/Client have been installed properly and work fine • Services currently monitored by SAM: SE, CE, gCE, SRM, LFC FTS • The tests run every 3 hours, the results are visible immediately (for SE, SRM, LFC) or after 3 hours (for CE, gCE) • A temporary SAM server at CERN: https://lxb6111.cern.ch/sam/sam.py

25. SAM Monitoring

26. EUChina VOMS backup server • EUChina VOMS backup server is being deployed in CNIC • Install gLite VOMS • MySQL DB • Synchronize the data between the main voms and the backup one • Maintaince & upgrade

27. Collaboration and synergies with other EU projects: • EUMEDGRID (www.eumedgrid.org) • SEEGRID (www.see-grid.org) • EELA (www.eu-eela.org) • ICEAGE • BELIEF (www.beliefproject.org) • GRID@ASIA (www.gridatasia.net) • EUIndiaGRID (negotiating the contract with EU) Collaboration with other projects

28. WP3 – Pilot infrastructure Deployment & Operations (9PM) • A3.1 CNGrid-EGEE interoperability • A3.3 Operational support of advanced Services • A3.3 Promotion of new Asian Grid (CERN coordinated) • WP4 – Applications (2.5 PM) • A.4.3 Biology Applications • WP5 – Dissemination (2.5PM) • A5.2 Dissemination of Advanced Knowledge Activities • A5.3 Promoting new communicaties CERN resposibilities

29. VOMRS support • Test • Test script & code • Submit/investigate VOMRS bugs in savannah • Maintenance VOMRS in LCG production server • Troubleshooting • Handle and debug all the requests, questions, problems reported by CERN users (in GGUS & Remedy) • Collect requirements and calls for improvement Activities in IP-GD-OPS

30. http://www.euchinagrid.org/ http://www.euchinagrid.cn/ (Chinese version) http://roc.euchinagrid.org/ https://voms2.cnaf.infn.it:8443/voms/euchina/ https://euchina-sam.ihep.ac.cn/sam/sam.py https://support.euchinagrid.org/ http://euchina-gridice.cnaf.infn.it:50080/gridice/ http://www.euchinagrid.org/IPv6/ http://goc.grid.sinica.edu.tw/gstat/euchina/ Links

31. EUChinaGrid workshop at EGEE06, in Geneva, 26th Sep.,2006 1st EUChinaGrid workshop in IHEP, Beijing, 12th-14th Jun. 2006

32. Thanks ! 谢谢！

33. Backup

34. TEIN2 (Trans-Eurasia Information Network) • Coordinated by DANTE and co-funded by EC within the 6th IST Framework Programme • Aims to implement research and education IP direct connectivity between Europe and the Asia-Pacific region, and within Asia Pacific itself. • first (current) phase: deployment of a high bandwidth connectivity (> 622 Mbits/s)  to China before the end of 2005 • 2 routes: • northern (Trans-Siberian) of STM-4 capacity between EU and Beijing over one of the new trans-Siberian cable system • southern (Trans-Pacific) of STM-4 capacity (to provide a backup in case of damage etc) • Further information: http://www.tein2.net TEIN2 Project

35. ORIENT (Oriental Research Infrastructure to European NeTworks) • Presented at the same call of EUChinaGRID hes been approved. • Coordinated by DANTE on the European side and by CERNET on the Chinese side • Co-Funded 25% by EC, 25% by DANTE and the European NRENs and 50% by the Chinese Government • aims to procure, implement and operate a high-speed (up to 2.5 Gbits/s) link between the Chinese academic networks CERNET and CSTNET and the corresponding pan-European network GEANT2. • Preliminary plans for procurement and time schedules will be available for the EUChinaGRID kick-off meeting in Athens. ORIENT Project

36. ORIENT upgrade 1Gbps: 7 October • CSTNET will be connected Network

37. CNGRID Sites

38. NGG: National Geological survey Grid • DFG: Digital Forestry GriG • CMAG: China Meteorological Application Grid • SDG: Scientific Data Grid • DDG: Drug discovery grid • BAGrid: Bioinformatics Applied Grid • AviGrid: Aviation Manufacture Grid • Traffic Information Grid Applications over CNGrid

39. Conference organization • Dissemination material for the conference • Press activities • New dissemination material (newsletter, FAQ, press kit) • 3 tutorial just done • A big Local Training Team formed and tested • 1 tutorial foreseen in November • Translating user guides in Chinese and maintain them Project dissemination activities