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Project Coordination. R. Cavanaugh University of Florida. Important. UltraLight is a project with two equal and symbiotic activities Application driven Network R&D Not just a networking project, nor solely a distributed data analysis project UltraLight is a Physics ITR Ultimate goal
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Project Coordination R. Cavanaugh University of Florida
Important • UltraLight is a project with two equal and symbiotic activities • Application driven Network R&D • Not just a networking project, nor solely a distributed data analysis project • UltraLight is a Physics ITR • Ultimate goal • Enable and produce physics (more generally e-science), which could not otherwise be performed • Network Technical Group is the “backbone” of the Project • Activity: Perform network R&D • Metric: CS Publications, demonstrations • Applications Technical Group is the “driver” of the Project • Activity: Perform “middleware” R&D, perform LHC Physics research • Metric: CS and Physics Publications, demonstrations, community adoption
CMS CCS APROM US-CMS S&C Tier-1 UAF Tier-2 Program DYSUN Tier-2c ATLAS Relationship between UltraLight and LHC ATLAS and CMS will integrate the UltraLight Application Services respectively into their own separate Software Stacks
Reminder from the Proposal • Phase 1 (12 months) • Implementation of network, equipment and initial services • Phase 2 (18 Months) • Integration • Phase 3 (18 Months) • Transition to Production
Original UltraLight Synchronisation Plan with CMS Phase 1 Now UltraLight Milestones 6-m from now CMS Milestones and activities Phase 2 UltraLight Deliverables UltraLight Users Phase 3
Scope of UltraLight • Original Proposed Programme of Work • Current Amended Programme of Work
Project Management • Web-page portal • Wiki, etc • Mail-lists • Regularly scheduled phone and video meetings • Periodic face-to-face workshops • Persistent VRVS room for collaboration • Reports • Technical • Annual
In the Proposal HEP Application-layer Services e-VLBI Application-layer Services Global Services Testbed Deployment and Operations Network Engineering Education & Outreach Current Applications CMS ATLAS e-VLBI Global Services Testbed Network Global Services Testbed Engineering Education & Outreach Project Structure of UltraLight
Project Plan • Short term • Longer term
6-month Overall Project Goals • Establish early ties to the LHC • Tightly couple with LHC experiment needs and timelines • Possibly take on official roles within experiments? • Must aggressively come up to speed to be meet LHC milestones • Already underway… • Establish collaborative ties with external partners • OSG, Grid3, CHEPREO, AMPATH, etc • Already underway… • Establish scope of the project • Evaluate trade-offs between • R&D interests and application needs • Functionality and LHC timeline • Determine what technology we • Can adopt off the shelf • Must develop to meet project goals • Establish initial UltraLight infrastructure and user community
Early Focus of the UltraLight Technical Groups • Networking • Construct the UltraLight Network Testbed (UNT) • Applications • Construct the UltraLight Applications Testbed (UAT) • Leverage GAE, Grid3, CMS, ATLAS, etc • Prepare applications that will exploit the Network Testbed • E&O • Build relationships with external partners • CHEPREO, CIARA, AMPATH, etc • To first order, the Network Testbed can be instantiated independently from the Application Testbed and E&O activities • This will be our early strategy • Later, bring the (largely orthogonal) testbeds together in an evolutionary way
Longer Term Project Goals (past initial testbed building phase) • Global Services • Develop handles which monitor, control, and provision network resources • Manually at first, then move to automate • Close collaborative effort between Applications Group and Networking Group • Requires the that the UNT and UAT work together as a coherent whole • Combine to operate single UltraLight Testbed (UT) • Smooth transformation to UT expected as UNT and UAT activities are very complementary
6-month Network Goals • Inventory the different UltraLight sites • What are the current connections available at each site? • What type of switches, how many, and where are they located, etc? • Construct the UltraLight Network Testbed • Persistent development environment • Piece together all the different network components • Create the NOC Team • Begin thinking about disk-to-disk transfers • Interface with Storage Elements • Important for later integration work with Applications
6-month Application Goals • Establish UltraLight Application Grid Testbed • Persistent development environment • Deploy Application-layer services and middleware • Deploy HEP Applications • Create the GOC Team • Perform System Integration Tests: Demonstrate • Interoperability of existing UltraLight Application-layer Services • Operability of HEP Applications on top of existing Application-layer Services • Study HEP application (ORCA & ATHENA) behaviour in-depth • Execution environment, Data/Metadata Model, Performance Profiles • Current and future versions
6-month E&O Goals • Earni and Fabian Network engineers • Networking to brasil • $ for E&O connected with CHEPREO • Julio and Heidi • EO (CHEPREO and UltraLight) • QuarkNet • Bring people together to do science • Community aspect
6-month E&O Goals • Quark net • Research emphasized • Monte Carlo at FNAL • Z0’s with fake detector • Teachers see what it is like to be a particle physicists • HS teachers are a different group • Need to be long term oriented, substantial, something teachers can sink teeth into
6-month E&O Goals • Ideas for what is practical • How to fit together • Had a grid needs/assesment workshop • There is a writeup • Look at live data from CMS • Coordinate with applications group • ORCA -> comma separated file -> excel • Web browser driven • No special software
6-month E&O Goals • Showing students how scientists collaborate • Have meetings between scientists and students (via VRVS?) • Ask a scientist day to highlight networking and HEP • Thinkquest competition • Awards • Put together ad-hoc grid networks • Workshops and teaching • Seamless bridge Ultralight/HEP tools with java applet
6-month User Community Goals • Feedback loop between developers and users • Update and confirm the Proposed UltraLight Grid-enabled Analysis Environment • Use actual LHC data analysis work • Contribute to the CMS Physics TDR Milestones • Many UltraLight members are strongly engaged • Effort recognised in CMS • Application driver for UltraLight! • Challenging and essential! • Very tight, ambitious schedule to meet however…
Current UltraLight Application Group Status Much Delivered for SC04 Demonstrated at SC04 CMS P-TDR Analysis Efforts Already Underway (very ambitious schedule) Application Group is already working hard to ramp up in time for the LHC
Current UltraLight Network Group Status • Also working hard • Refer to Shawn’s UltraLight Network Technical Document
Major Milestones over the Next 6 Months • Dec • Initial UltraLight Collaboration Meeting at CIT • Jan • UltraLight Week at CIT: UltraLight Applications Testbed Started • Feb: CMS PRS Meeting • UM connects to MiLR, UF connects to FLR • Mar: CMS Week • FLR declared to be “Production” • Apr: • May: CMS CPT Week • First round of CMS approvals for analyses to enter P-TDR • Jun: CMS Week • UltraLight Meeting (UM?): UltraLight Network Testbed in place
Notes • Rick • Setting LHC requirements and scale • Connect to LHC schedule • Project plan (short term + longer term) • Project management strategy • Regularly scheduled phone and video conf • Persistent VRVS room for collaboration • Relationship to GISNET, DYSUN, UltraLight • Make connection between application and networking groups • Frank • CMS (LHC) use-cases • Summary of the application services document • Short term plan for Application Technical Group
