Presentation is loading. Please wait.

Presentation is loading. Please wait.

INFSO-RI-508833 Enabling Grids for E-sciencE www.eu-egee.org Bulgarian Involvement in the European Grid Infrastructure Aneta Karaivanova, Emanouil Atanassov,

Similar presentations


Presentation on theme: "INFSO-RI-508833 Enabling Grids for E-sciencE www.eu-egee.org Bulgarian Involvement in the European Grid Infrastructure Aneta Karaivanova, Emanouil Atanassov,"— Presentation transcript:

1 INFSO-RI Enabling Grids for E-sciencE Bulgarian Involvement in the European Grid Infrastructure Aneta Karaivanova, Emanouil Atanassov, Todor Gurov Institute for Parallel Processing Bulgarian Academy of Sciences

2 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Overview Evolvement of Grids What is Grid? Goals of the EGEE project Structure of EGEE operations Bulgarian involvement in EGEE activities Current status of regional operations Mission of the SEE-GRID project

3 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Historical perspective Local Computing –All computing resources at single site. –People move to resources to work. Remote Computing –Resources accessible from distance. –All significant resources still centralized. Distributed Computing –Resources geographically distributed. –Specialized access; largely data transfers. Grid Computing –Resources and services geographically distributed. –Standard interfaces; transfers of computations and data.

4 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, What is the Grid? The Grid - next generation of Internet computing. The Grid was first properly explained by Ian Foster and Carl Kesselman in their book The Grid: Blueprint for a New Computing Infrastructure (1998). Their vision: providing distributed resources for transparent public use, based on standartized interface. Their idea: people could access computational power, content, and other computer services in an easy way, just like using electricity by plugging a device into a wall socket. It was a dream. Where are we now?

5 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Enabling Grids for E-sciencE EGEE is the biggest EU project that aims to integrate current national, regional and thematic Grids, in order to create a seamless Grid infrastructure for the support of scientific research years project 70 partners from 27 participating countries Integrate over 100 sites into a common infrastructure Offer 5 Petabytes (10 15 ) storage 3000 users from at least 5 disciplines

6 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, EGEE Partner federations All work in EGEE will be carried out by the 70 partners grouped in 12 federations. The Bulgarian EGEE partner is the IPP-BAS.

7 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Goals of the EGEE project Within a four year programme: Build, deploy and operate a consistent, robust and secure grid available to scientists 24 hours-a-day, 7 days-a-week. Improve and maintain the middleware in order to deliver a reliable service to users Attract new users from science and industry and ensure training and support for them

8 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, EGEE research communities Over the duration of the project the Grid Services will be expanded and taken to new communities. Pilot New

9 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Activities of EGEE Network Activities –NA1: Project Management –NA2: Dissemination and Outreach –NA3: User Training and Induction –NA4: Application Identification and Support –NA5: Policy and International Cooperation Service Activities –SA1: Grid Support, Operation and Management –SA2: Network Resource Provision Joint Research Activities –JRA1: Middleware Reengineering + Integration –JRA2: Quality Assurance –JRA3: Security –JRA4: Network Services Development Emphasis in EGEE is on operating a production grid and supporting the end-users

10 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Bulgaria: Starting position BgGrid Consortium (main purposes: Sharing of resources and expertise in Grid; Development of Grid-enabled algorithms)  Founders: Institute for Parallel Processing (former CLPP-BAS) and Institute for Nuclear Research and Nuclear Energy (INRNE- BAS) – (Agreement signed in September 2002)  Joined by (Agreements signed in January 2004):  Institute of Mathematics and Informatics (IMI), Bulg. Academy of Sciences  Institute of Mechanics (IM), Bulgarian Academy of Sciences  Faculty of Mathematics and Informatics (FMI), Plovdiv University  Computer Science Department (CSD), American University in Bulg. (AUBG)  Department of Information Technologies at the Faculty of Mathematics and Informatics (DIT-FMI), Sofia University.  Institute of Electrochemistry and Energy Systems (IEES), BAS.  New members (Agreements signed in 2005) ):  Institute of Astronomy (IA), BAS  Space Research Institute (SRI), BAS

11 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Keys for our success Close collaboration between all members of the BG EGEE team Weekly work planning & regular discussions IPP participates in SA1 and NA2 but the team members work on both activities Scientific reputation of the team IPP-BAS has leading expertise in various science areas Center of Excellence Center of Competence Team members are invited lecturers at the important international conferences held in Bulgaria

12 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, BG NA2 activities Providing updated information: Upkeep Media coverage (articles in BG newspapers and in the Inf. Bulletin of BAS, radio interview, etc.) PR materials Invited visits and seminar presentations for BgGrid Consortium members Regular discussions with representatives of the BgGrid Consortium Invited presentations at 8 international conferences held in Bulgaria Seminar on Bulgarian Involvement in EU Grid Initiatives and Grid technologies application in education, scientific research and health, June 3, 2005

13 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Dedicated EGEE events 1 st EGEE and SEE-GRID Workshop in Bulgaria: “EU Grid projects: mission, current status, perspectives”, October 30-31, 2004, Borovetc. Purpose: to disseminate the ideas and to spread technical information for the EU projects EGEE and SEE-GRID 57 participants: project team members representatives of the BG Grid consortium (directors/vice-directors and system administrators), interested parties (possible new members of BG Grid), BAS officials, journalists, etc

14 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, EGEE events in Bulgaria EGEE Dissemination seminar dedicated to EGEE applications, June 29, Sofia: Audience: users which will benefit most from using the Grid (55 participants from BAS institutes and universities) Lecturers from Forschungszentrum Karlsruhe (FZK) and National eScience Center (NeSC), Edinburgh, UK EGEE NA2 meeting, June 29-30, Sofia, Bulgaria : Bulgaria was chosen to host the meeting because of the excellent results achieved in the first project year Representatives from all EGEE NA2 partners participated in the meeting Bulgarian experience in EGEE dissemination

15 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Localised EGEE Websites

16 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Structure of EGEE operations Operations Management Centre (OMC): –At CERN – coordination etc Core Infrastructure Centres (CIC) –Manage daily grid operations – oversight, troubleshooting –Run essential infrastructure services –Provide 2 nd level support to ROCs –UK/I, Fr, It, CERN, + Russia (M12) –Taipei also run a CIC Regional Operations Centres (ROC) –Act as front-line support for user and operations issues –Provide local knowledge and adaptations –One in each region – many distributed User Support Centre (GGUS) –In FZK – manage PTS – provide single point of contact (service desk) –Not foreseen as such in TA, but need is clear

17 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, The Regional Operations Centres Certification and Deployment Operational support User support Security Accounting

18 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Operations monitoring maps In EGEE/LCG: > 150 sites, 34 countries > 12,000 cpu ~5 PB storage In EGEE/LCG: > 150 sites, 34 countries > 12,000 cpu ~5 PB storage

19 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Participants from SEE federation

20 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Example grid site - BG01-IPP UI - PKI X.509 certificate keys - JDL files Terminals enter Grid enter Grid enter Grid enter Grid UI WN RB/II CE SE BDII

21 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, SEE ROC activities Introduce new RCs (one new RC under construction at Sofia University). Pro-active monitoring of grid services at RC React and solve problems, reported by users or CIC Validate new middleware releases Provide feedback to middleware developers through the pre-production service Interfaces: Savannah at CERN, GGUS at FZK Deployment of new VOs at RC level

22 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, BG Grid infrastructure BG01-IPPBG02_IMBG-INRNEBG04-ACAD alice atlas biomed cms magic dteam esr29000 lhcb Sites – 4 (3 EGEE, 1 SEE-GRID) CPUs – 40 VOs supported – HEP, BioMed, ESR, magic, regional The table shows the total summed CPU time

23 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, User support New experimental users New production users/apps EGAAP Join existing VO with your application Qualify as new VO Join SEE-VO Experienced production users Join existing VO as a member Play on GILDA: RO, GR Help with app development Help with EGAAP application Our ROC core services User support per country

24 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, VOs supported at the first BG EGEE site – BG01-IPP BG01-IPP was the first SEE site to support: –biomed VO – since Nov 2004 –ESR – since Jan 2005 –magic – since Mar High Energy Physics support - Alice, Atlas, LHCb, CMS software deployed at the site. –LHCB production jobs since October –CMS production jobs running at this moment:

25 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, BG application in SEE VO - SALUTE The Problem: ultra-fast semiconductor carrier transport femtosecond relaxation of hot electrons by phonon emission in presence of electric field. Barker-Ferry equation and Monte Carlo approach Application in nanotechnologies: innovative results for GaAs: collision broadening and memory effects of quantum kinetic model; Intra-collision field effect: quantum scattering - retarding and accelerating field. “NP-hard” problem concerning the evolution time Parallel and Grid implementation

26 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Wigner function 800 x 260 points 150 fs

27 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Energy relaxation process: collisional broadening Accumulation From 10 fs up 250 fs

28 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Energy relaxation process: collisional broadening Accumulation From 10 fs up 250 fs

29 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Energy relaxation process: collisional broadening Accumulation From 10 fs up 250 fs

30 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, BG application in ESR VO – air pollution prediction Under development by Tzvetan Ostromsky from IPP Transition from HPC to Grid computing

31 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Selection of Monitoring tools GIIS MonitorGIIS Monitor graphs Sites Functional Tests GOC Data Base Scheduled Downtimes Live Job Monitor GridIce – VO viewGridIce – fabric viewCertificate Lifetime Monitor Note: Those thumbnails are links and are clickable.

32 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Summary All activities are up-and-running All milestones and deliverables for the first reporting period have been met/produced The project has already met the targets set for the first 2 year phase One of these 5 languages is Bulgarian Target Current status End Year 2 End Year 4 Number of Users~ 500≥ 3000≥ 5000 Respectability (peer reviewed) 23%≥ 15%≥ 50% Breadth (disciplines) 6≥ 5 Multinational (countries) 34 ≥ 15 Multilingual (languages) 5≥ 4≥ 8

33 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Results Two new members of BgGRID Consortium Institute of Astronomy (IA), BAS Space Research Institute (SRI), BAS Specific agreements with two Institutions to install Grid sites and support regional and EGEE applications Institute of Mechanics – BG02-IM – production site running since January Faculty of Physics, Sofia University – agreement recently signed, work in progress BG EGEE sites Four EGEE production sites One Grid site (under construction) Our EGEE applications: SALUTE (Stochastic ALgorithms for Ultra-fast Transport in sEmiconductors) – SEE VO Env_Mod – Air pollution modelling applications – ESR VO.

34 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Integrate SEE NGIs in the Pan- EU and worldwide Grid initiatives  Establish a seamless and interoperable pilot-Grid infrastructure that will expand and support the ERA.  Allow smaller, less-resourced sites to access computing power that would otherwise be unaffordable.  Ease the digital divide and release the scientific & productive talents of the region Mission SEE-GRID mission

35 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, SEE-GRID Contractors GRNET (Co-ord.) Greece CERNSwitzerland SZTAKIHungary IPP-BASBulgaria ICIRomania TUBITAKTurkey INIMAAlbania BIHARNETBosnia- Herzegovina UKIMFYROM UOBSerbia- Montenegro RBICroatia

36 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, SEE-GRID current snapshot LCG-2 clusters installed in all sites. – 9 SEE-GRID sites – ( with >80 CPUs) in participating countries in the first project year; Regional SEEGRID VO is supported with 3 Grid apps: –Volumetric Image Visualization Environment (VIVE); – Search Engine for South Eastern Europe (SE4SEE); –Stochastic ALgorithms for Ultra-fast Transport in sEmiconductors (SALUTE). EGEE VOs supported - –HEP, biomed. Significant human capital & tech expertise –emphasis on software development –extend the objective to build additional Grid applications of regional interest GRIDICE monitoring and P-GRADE portal

37 Enabling Grids for E-sciencE INFSO-RI NSFB Information day, Contact information Contact persons: Emanouil Atanassov, SA1 Activity Leader (BG) Aneta Karaivanova, NA2 Activity Leader (BG), Todor Gurov, Alternate SEE-GRID manager Ivan Dimov, EGEE Project leader for BG


Download ppt "INFSO-RI-508833 Enabling Grids for E-sciencE www.eu-egee.org Bulgarian Involvement in the European Grid Infrastructure Aneta Karaivanova, Emanouil Atanassov,"

Similar presentations


Ads by Google