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BINP/GCF Status Report BINP LCG Site Registration

BINP/GCF Status Report BINP LCG Site Registration. A.S.Zaytsev@inp.nsk.su. Oct 2009. Overview. Current status BINP LCG site registration procedures Getting to production with ATLAS VO activities NSC/SCN connectivity Cooperation with NSU SC facility Future prospects.

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BINP/GCF Status Report BINP LCG Site Registration

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  1. BINP/GCF Status ReportBINP LCG Site Registration A.S.Zaytsev@inp.nsk.su Oct 2009

  2. Overview • Current status • BINP LCG site registration procedures • Getting to production with ATLAS VO activities • NSC/SCN connectivity • Cooperation with NSU SC facility • Future prospects BINP/GCF Status Report

  3. BINP LCG Farm: Present Status CPU: 40 cores (100 kSI2k) | 200 GB RAM HDD: 25 TB raw (22 TB visible) Input power limit: 15 kVA Heat output: 5 kW

  4. Current Resource Allocation(up to 80 VM slots now available within 200 GB of RAM) Computing Power Centralized Storage LCG: 0.5 TB (VM images) 15 TB (DPM pool buffer, VOs software areas) KEDR: 0.5 TB (VM images) 4 TB (local backupof experimental data) Others (e.g. NSU): up to 4 TB reserved forlocal NFS/PVFS2 buffer • LCG: • 4 host systems now (40%) • 70% share is prospected for production with ATLAS VO (near future) • KEDR: • 5 host systems (50%) • VEPP-2000, CMD-3,Test VMs, etc.: • 1 host system (10%) BINP/GCF Status Report

  5. BINP LCG Site Registration (1) • STEP 1: DONE • Defining the basic configuration values for the site (name, place within the hierarchy, geographic location, etc.) • BINP-Novosibirsk-LCG • Tier-2 within the distributed RuTier-2 of WLCG • Creating the mailing lists for covering the site admin activitiesand WLCG site security issues • gcf-common@inp.nsk.su • lcg-admins@inp.nsk.su • lcg-security-admins@inp.nsk.su • Choosing the architecture of the site, setting up the software repositories, and deploying the start-up set of the nodes (CE+SE+WNs) • SLC4x86 + gLite 3.1 • Registering the site in GOC (GRID Operating Center) with help of ROC (Regional Operating Center) representative, get the “Candidate” status for the site, publish the contact info of site admins & security officers • A.Zaytsev, A.Suharev BINP/GCF Status Report

  6. BINP LCG Site Registration (2) • STEP 2: DONE • Installing utility nodes of the site (MON, LFC, WMS/LB, PX, UI, extra DPM_diskVMs, etc.) • Querying the certificates for all the service nodes of the site • Configuring middleware on all the nodes • Tune the local firewalls according to the site internal and external connectivity requirements • Tune local NAT engines / LCG farm-edge / BINP-edge / NSC firewallsto provide the service nodes of the site with external connectivity(with major help from S.D.Belov and ICT sysadmins) • Get “OK” status with GStat tests run hourly by GOC • Get “Certified/Production” status for the site from ROC • Define the list of supported VOs • DTEAM, RDTEAM, RDSTEST, OPS, ATLAS • Start receiving the production SAM tests from GOC BINP/GCF Status Report

  7. BINP LCG Site Registration (3) • STEP 3: IN PROGRESS • Getting OK for all the SAM tests (currently being dealt with) • Confirm the stability of operations for 1-2 weeks • Upscale the number of WNs to the production level(from 12 up to 32 CPU cores = 80 kSI2k max) • Ask ATLAS VO admins to install the experimental software on the site • Test the site for ability to run ATLAS production jobs • Check if the 110 Mbps SB RAS channel is capable to carry the loadof 80 kSI2k site • Get to production with ATLAS VO (hopefully by the end of Nov 2009) BINP/GCF Status Report

  8. Future Prospects • Several ways to follow: • Further upgrades of the farm up to 360 CPU Cores (0.9-1.0 MSI2k) and 300 TB of disk space • Extending LCG site to the outer computing resources (mainly to the SC of the NSU – up to 128 cores might be granted for the LCG activities) • 10 Gbps NSU-BINP channel is expected to operate at full throughput staring from this week (SSCC is on its way, TSU is on the horizon) • Virtualization schema proposed for NSU is to be validated in 2 weeks to come • Both of the previous strategies in parallel • Important issues foreseen: • Scaling up beyond 0.5 MSI2k might require more than 1 Gbps of external connectivity (exclusively) – major effort of improving the situation with external connectivity of the site needed in 2010-2011 • 10 Gbps links to the local experiments (KEDR, CMD-3) are required to make sure that all the resources of the farm (and its offshore parts) are used efficiently BINP/GCF Status Report

  9. 360 CPU cores/ 300 TB Configuration BINP/GCF Status Report

  10. Prospected 10 Gbps Network Layout BINP/GCF Status Report

  11. Summary • LCG site registration progress: 2 of 3 steps are handled • With our own resources we export up to 80 kSI2k / 15 TB to WLCG (NSU may add 300 kSI2k in the near future) • The exact hardware and network equipment upgrade plan is yet to be defined (though specs are ready for up to 1.1 M$) • We are about to try to get to production with ATLAS VO exclusively in 2009Q4, more VOs support demanded starting from 2010 BINP/GCF Status Report

  12. Questions & Comments

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