1. 1Forschungszentrum Jülich  11:00 – 11:20UNICORE – A European Grid Middleware (20 min) Achim Streit (FZJ)  11:20 – 11:30Demonstration of UNICORE in DEISA (10 min) Andrea Vanni (CINECA)  11:30 – 11:50GPE4UNICORE (20 min) Hans-Christian Hoppe (INTEL)  11:50 – 12:10COVS (20 min) Morris Riedel (FZJ)  12:10 – 12:30Standards in UNICORE (20 min) Dave Snelling (FLE) OGF19 Software Providers Forum

2. Forschungszentrum Jülich in der Helmholtz-Gesellschaft January 2007 A European Grid Middleware Achim Streit a.streit@fz-juelich.de

3. 3Forschungszentrum Jülich  UNiform Interface to COmputing Resources  seamless, secure, and intuitive  Initial development started in two German projects funded by the German ministry of education and research (BMBF)  08/1997 – 12/1999: UNICORE project  Results: well defined security architecture with X.509 certificates, intuitive GUI, central job supervisor based on Codine from Genias  1/2000 – 12/2002: UNICORE Plus project  Results: implementation enhancements (e.g. replacement of Codine by custom NJS), extended job control (workflows), application specific interfaces (plugins)  Continuous development since 2002 in several European projects  Open Source under BSD license since Summer 2004  Core developers today from Europe: CINECA, ICM, Intel, FLE, FZJ History lesson

4. 4Forschungszentrum Jülich  A vertically integrated Grid middleware system since 1997  Provides seamless, secure, and intuitive access to distributed resources and data  Used in production and projects worldwide  Open Source under BSD license  Features  intuitive GUI with single sign-on  X.509 certificates for AA and job/data signing  workflow engine for complex workflows  extensible application support with plug-ins  interactive access with UNICORE-SSH Key features

5. 5Forschungszentrum Jülich EUROGRID UNICORE Plus GRIP GRIDSTART NextGRID D-Grid IPOMII-Europe EGEE-II A-WARECoreGRID ChemomentumeDEISADEISA 20082007200620052004200320022001200019992009 PHOSPHORUS UNICORE UniGridsVIOLAOpenMolGRID Projects  More than a decade of German and European research & development and infrastructure projects BEinGRID

6. 6Forschungszentrum Jülich  Interactive access (UNICORE-SSH)  Improved workflow capabilities (MetaPlugin for Workflows)  High-level API for programming Grids (Roctopus)  DRMAA-based TSI  Collaborative Online Visualization and Steering (COVS)  Comfortable configuration tool  Site Functionality Monitoring Tool (SIMON) Recent Developments

7. 7Forschungszentrum Jülich Website: http://www.unicore.eu

8. 8Forschungszentrum Jülich  About 450 users in 200 research projects  ¼ of them uses UNICORE  Access via UNICORE to  IBM p690 eSeries Cluster (1312 CPUs, 8.9 TFlops)  SoftComp Cluster (264 CPUs, 1 TFlop)  JUGGLE (176 cores, 845 GFLops)  Cray XD1 (120 CPUs + FPGAs, 528 GFlops) Usage at the National German HPC center NIC

9. 9Forschungszentrum Jülich  Consortium of leading national HPC centers in Europe  Deploy and operate a persistent, production quality, distributed, heterogeneous HPC environment IDRIS – CNRS, France FZJ, Jülich, Germany RZG, Garching, Germany CINECA, Bologna, Italy EPCC, Edinburgh, UK CSC, Helsinki, Finland SARA, Amsterdam, NL HLRS, Stuttgart, Germany BSC, Barcelona, Spain LRZ, Munich, Germany ECMWF, Reading, UK Distributed European Infrastructure for Supercomputing Applications

10. 10Forschungszentrum Jülich  Dedicated 1 Gb/s network as a basis  High performance datagrid via GPFS  Extended to non-AIX Linux like SGI Altix, Mare Nostrum  Common Production Environment on all sites  Job migration across sites  Used to load balance the global workflow when a huge partition is allocated to a DEISA project in one site  UNICORE as Grid Middleware for workflow applications  Co-allocation for applications running on multiple sites at the same time  Global data management to include tertiary storage and hierarchical data management system  Science Gateways and Portals to facilitate the access of new, non traditional users communities Services

11. 11Forschungszentrum Jülich Usage in DEISA  fully-meshed UNICORE infrastructure  complex multi-site workflows easily possible  heavily used by scientific DECI (DEISA Extreme Computing Initiative) projects/jobs

12. 12Forschungszentrum Jülich Usage in D-Grid  Core D-Grid sites committing parts of their existing resources to D-Grid  Approx. 700 CPUs  Approx. 1 PByte of storage  UNICORE is installed and used  Additional Sites receiving extra money from the BMBF for buying compute clusters and data storage  Approx. 2000 CPUs  Approx. 2 PByte of storage  UNICORE (as well as Globus and gLite) will be installed as soon as systems are in place LRZ DLR-DFD

13. 13Forschungszentrum Jülich Usage in Industry and Commercial Support

14. 14Forschungszentrum Jülich  New infrastructure based on web services  Preserved traditional “User-level” features  Atomic: simple tasks, such as „Execute script“  Client: workstation GUI  Workflow: edit, run and monitor graphs of atomic tasks  Additional “User-level” features  Portal: web based portal client  Streaming: client-server streaming support (for visualization or media applications)  Application development features  Software license management  Simplified application deployment  Deployment features  User and virtual organization (VO) management Roadmap to UNICORE 6.0

15. 15Forschungszentrum Jülich Architecture of Version 6.0

16. 16Forschungszentrum Jülich  Goal is to provide key software components for building e-infrastructures  Project will demonstrate “proof of concept” with expectation for a follow- on project in FP7  Initial focus on providing common interfaces and integration of major Grid software infrastructures  Committed to standards process  Implementing agreed open standards and working with standards process (OGF/Oasis) University of Southampton, UK (coordinator)University of Chicago, USA Fujitsu Laboratories Europe, UKNCSA, University of Illinois, USA Forschungszentrum Jülich, GermanyUniversity of Southern California, Los Angeles, USA Kungl Tekniska Högskolan, SwedenUniversity of Wisconsin-Madison, USA Istituto Nazionale di Fisica Nucleare, ItalyBeihang University, China Poznan Supercomputing & Networking Center, PolandChina Institute of Computing Technology, Beijing, China University of Edinburgh, UKComputer Network Information Centre, Beijing, China CERN, SwitzerlandTsinghua University, China Interoperability and Usability of Grid Infrastructures

17. 17Forschungszentrum Jülich  Common interoperable services  Database Access (OGSA-DAI), VO Management (VOMS), Accounting (GGF-RUS), Job Submission and Monitoring (OGSA- BES, ESI/UAS), Portal (Gridsphere)  Capability to add additional services  Emphasis on porting and re-engineering work, not developing from scratch  Infrastructure integration  Interoperable security framework  Initial gLite/Globus/UNICORE/CROWNgrid interoperability  Quality Assurance  Published methodology and compliance test  Repository of open-source, quality assured software services for gLite, Globus, UNICORE and CROWNgrid  Evaluation infrastructure to “test” services in

18. 18Forschungszentrum Jülich  Filling an existing gap for science and business  Portals  Integration of a established commercial portal solution, EnginFrame and an open source solution  A-WARE Workflow Orchestrator Service (WOS)  A flexible and powerful workflow engine  Maturing and support of UNICORE 6 technology  5 partners (from IT, UK, FR, DE), coordinated by CINECA  Provide an integrated Grid solution for workflow-centric, complex applications with a focus on data, semantics and knowledge  Based on UNICORE 6  End user focus: ease of use, domain specific tools, “hidden Grid”  Focus on data services and knowledge management solutions  Provide decision support services for risk assessment, toxicity prediction, and drug design  9 Partners (from PL, DE, EE, NI, IT, FR, CH), coordinated by ICM in

19. 19Forschungszentrum Jülich  Collaborative Online Visualization and Steering (COVS)  A framework for scientific simulations and visualizations  In addition to usual post-processing (offline) techniques  Enables to view the actual status (online) of parallel simulations  Based on the communication library VISIT  Works with all VISIT-enabled scientific visualizations  Implemented as a higher level service of UNICORE  Collaboration server + multiplexer for geographically dispersed clients  Usage of UNICORE security infrastructure for single sign-on  Successfully demonstrated at OGF18, Europar’06, SC’06, … A use case of UNICORE 6