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Cardiff University Advanced Research Computing Suppliers Briefing. Dr Hugh Beedie (INSRV and ARCCA CTO) Dr Chris Dickson (SRIF3 HEC Programme Coordinator). Cardiff University Supplier Briefing. Purpose Inform Suppliers of CU requirement and vision
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Cardiff UniversityAdvanced Research Computing Suppliers Briefing Dr Hugh Beedie (INSRV and ARCCA CTO) Dr Chris Dickson (SRIF3 HEC Programme Coordinator)
Cardiff University Supplier Briefing • Purpose • Inform Suppliers of CU requirement and vision • Supplier to outline Technology Roadmap and Service capabilities
Morning Session • 11:00 to 11:40 • Presentation from CU staff (30-35 minutes) • Questions from supplier (5-10 minutes) • 11:40 to 12:40 • Presentation from supplier (45-50 minutes) • Questions from CU staff (10-15 minutes) • 12:40 to 13:00 • Closed session for CU staff (20 minutes)
Afternoon Session • 14:00 to 14:40 • Presentation from CU staff (30-35 minutes) • Questions from supplier (5-10 minutes) • 14:40 to 15:40 • Presentation from supplier (45-50 minutes) • Questions from CU staff (10-15 minutes) • 15:40 to 16:00 • Closed session for CU staff (20 minutes)
An Overview:Past, Present and Future Dr Chris Dickson
Cardiff University History • Founded by Royal Charter in 1883
Cardiff University Mission and Vision • Mission: To pursue research, learning and teaching of international distinction and impact • Vision: To be a world class university and to achieve the associated benefits for its students, staff and stakeholders
Cardiff UniversityScale and Scope • 26,000 Students • 21,000 Undergraduates • 5,000 Postgraduates • 35,000 Applications for 4,500 Places • 5,500 Staff • 2,500 Academic & Research • 28 Academic Schools • 15 Schools RAE 5, 7 Schools RAE5*
Cardiff University Standing • A member of the Russell Group of leading research universities • Research Excellence • 7th UK University Ranking • Research Assessment Exercise 2001 • Most Recent RAE
Cardiff UniversityStanding • 1 Cambridge • 2 Imperial College • 3 Oxford • 7 Cardiff • 8 Manchester • 10 Southampton • 14 Edinburgh • 15 Bristol • 16 York • 21 Birmingham
High Speed Cluster Galaxy Formation Gene Sequencing Mantle Simulation Molecular Simulation Orthodontic Modelling Protein Sequencing Gigabit Cluster Gravitational Waves Shared Memory Computational Fluid Dynamics Environmental Engineering Star Formation Condor Protein Structure Determination Radiotherapy Simulation Advanced Research ComputingCurrent Applications
Architecture Biosciences Business Chemistry Computer Science Dentistry Earth, Ocean and Planetary Sciences English, Communication and Philosophy Engineering History and Archaeology Mathematics Medicine Optometry and Vision Sciences Pharmacy Physics and Astronomy Psychology Advanced Research ComputingCurrent Schools
Cardiff HEC Strategy • World class facility for the university • Adopt a more coordinated approach • University investment • New organisation - Advanced Research Computing @ Cardiff (ARCCA) • Staff accommodation and machine room • SRIF3 investment in equipment and supporting infrastructure
Machine Room Area 175 sq m Ground Floor False Flooring & Ceiling Power, Cooling, Network Power Separate Bus-Bar + Meter Cooling Separate Bus-Bar + Meter Rack-based Cooling Room-based Cooling Security Key Card Access Closed Circuit TV Fire + Water Damage Smoke Detection Water Detection Automated Shutdown Office space for >12 staff Offices and Machine Room
ARCCA Vision • To build and sustain a position which takes the university to the forefront of leading research universities in the UK and internationally in this field • To work very closely with all of the relevant academic schools and administrative directorates
ARCCA Objectives • To transform the University’s approach to advanced research computing • To bring together the advanced research computing community • To introduce and encourage the use of new techniques and technologies • To encourage and enable new user communities and new applications • To encourage new and interdisciplinary research using advanced research computing techniques
ARCCA Organisation • Director (TBC) • Chief Technology Officer (Hugh Beedie) • Application Specialists • Infrastructure Specialists • e-Research facilitation • Administrative Assistant
Tender Requirements Dr Hugh Beedie
Cardiff’s Journey • Separate research projects with project-based HEC facilities • Some collaborations (e.g. Helix) • Strategic decision to provide University level solution • SRIF3 grant • ARCCA organisation • Select strategic partner
Partnership • State of the art of your technical offerings now and in Autumn 2007? • Form factor, heat management, power consumption and management? • HEC landscape over the next 3-7 years ? • How, over 3-7 years, you can help us to achieve our ambitions to offer "best-in-class" research computing capabilities and services on a par with world-leading campus-level centres? • Innovative and leap-frogging steps you can help us to take whilst at the same time being able to offer a service to today's "classic" HEC users.
Why Should You Partner Cardiff ? • Research quality (7th in UK) • Condor leader (1500PCs by end 2006) • Completing and coordinating the HEC service spectrum • Current breadth of academic involvement • WeSC involvement and NGS partner • Serious ambitions for • More Interdisciplinary work • Wider research applications • New techniques
HPC Tightly Coupled Supercomputers NUMA Machines £ Million+ HTC Loosely Coupled Small Clusters Campus Pools £ Thousand £ H Thousand The HEC Spectrum Large Clusters SMP £ H Thousand £ Million
Tender Outline • Lot 1. 2048 Core/512 Node Cluster with 4 Head Nodes, Interconnect Fabrics and Cluster S/W. • Lot 2. Shared Memory Systems (8, 16 and 32-way SMP machines). • Lot 3. 50TB+ Disk and 200TB+ Tape Storage Services for ARCCA facilities. • Lot 4. (Optional). Specialist Hardware (FPGAs, accelerators, etc) with associated software • Lot 5. (Optional) Other software tools (compilers, applications, application profiling & system management tools, other software, etc)
Lot 1- Head Nodes • 16 cores / 4 nodes • 100% of nodes • CPU Best value for money • RAM 4GB per core / 16GB per node • HDD 1TB per node • NIC 10GbE per node with TOE • NIC 4Gb dual-port fibre-channel • 100% of nodes with • High Speed – Low Latency Interconnect
Lot 1 - Cluster Nodes • 2048 cores / 512 nodes • 100% of nodes • CPU Best value for money • RAM 2GB per core / 8GB per node • HDD 72GB per node • NIC 2xGbE per node • 50%, 75%, 100% of nodes • High Speed – Low Latency Interconnect • Cluster Management and Job scheduling
Lot 2 - Shared Memory Nodes • 8, 16, and 32 way • All systems • CPU Best value for money • RAM 2GB per core • HDD 1TB per system • NIC 2xGbE per system
Lot 3 - Disk Storage • 50TB+ Disk Storage • Usable storage space • RAID 0, 1, 5 ??? • Hierarchical Storage Management • FC disk, SATA Disk, Tape Storage ? • Currently using Tivoli • Connected to Head Nodes • Via 4Gb dual-port fibre-channel • Via existing SAN switch
Lot 3 - Tape Storage • 200TB+ Tape Storage • Usable storage space • Hierarchical Storage Management • Disk Storage • Currently using Tivoli • Connected to Head Nodes • Via 4Gb dual-port fibre-channel • Via existing SAN switch
Lot 4 - Specialised Hardware R & D - Innovative Computational Methods • Computational Accelerators • Field-Programmable Gate Arrays • Programmable Graphics Processors • Cell Processors
Lot 5 - Other Software Tools • We invite you to comment on the following • Extra Cluster Management Tools • Extra Cluster Diagnostic Tools • Other Development Tools • Optimised Compilers & Libraries • Intel, Portland • Debuggers • Parallel Debuggers • Applications And Libraries • Profiling tools
Support Issues • We invite you to comment on the following • Spares stock vs guaranteed replacement time • Development/test nodes X 8 • Numbers of technical cluster support staff • Location • Skill sets • Single point of contact and responsibility • Including direct access to 3rd party tech support
Procurement contacts: Beedie@cardiff.ac.uk Primary contact Dickson@cardiff.ac.uk Secondary contact Any Questions ?