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Building the Greenest production supercomputer in the world

Building the Greenest production supercomputer in the world . Ed Turkel Manager, WorldWide HPC Marketing 4/7/2011. Tsubame 2.0 – The goals. Achieve 30x performance over Tsubame 1.0 Support diverse research workloads Weather, informatics, protein modeling, etc. Balanced design for scale

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Building the Greenest production supercomputer in the world

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  1. Building the Greenest production supercomputer in the world Ed Turkel Manager, WorldWide HPC Marketing 4/7/2011

  2. Tsubame 2.0 – The goals • Achieve 30x performance over Tsubame 1.0 • Support diverse research workloads • Weather, informatics, protein modeling, etc. • Balanced design for scale • Bandwidth to GPUs, CPU and GPU high memory capacity • High-bandwidth, low latency, full bi-section network • Solid state disks for high bandwidth, scalable storage I/O • Green: stay within power threshold • System estimated to require 1.8 MW with PUE of 1.2 • Density (GPU per CPU footprint) for costs and space • Expand support for Tokyo Tech’s 2000 users; provide dynamic “cloud-like” provisioning for both Microsoft® Windows® and Linux workloads

  3. HP Proliant SL6500 server Designed for scalable performance and efficiency • Performance and Flexibility • Mix and match for varying requirements • Multiple compute and storage optimized nodes • Convenient Serviceability • Individually serviceable nodes • Cool aisle cabling and node access • Hot-swap servers, fans, power supplies • Energy Efficiency • Shared power and cooling architecture • Energy efficient fans and power supplies • Common slot power supplies • Advanced Power Management • Power Capping • On/off control • Consumption/utilization logging

  4. NEW HP ProLiant SL390s HPC server Designed for a broad set of HPC workloads

  5. SL390s 2u Simplified Architecture Dual IOH for maximum GPGPU bandwidth x8 Intel Xeon5500/5600 I/OHub PCI-e x8 Slot DDR3 DDR3 x8 10GbE, QDR IB DDR3 DDR3 GPGPU QPI GPGPU DDR3 DDR3 GPGPU x16 Riser 1 QPI QPI Intel Xeon5500/5600 I/OHub x16 QPI x16 Riser 2 Support for NVIDIA Tesla M1060, M2050, M2070, M2070-Q

  6. MCS G2 s6500 SL390s

  7. Compute Rack Building Block for Tsubame2 HP Modular Cooling System G2 Rack enables maximum power density • 42U HP Modular Cooling System G2 rack,containing: • 30 SL390s G7 2u servers per rack • 60 CPUs and 90 GPGPUs • 8 chassis with Advanced Power Management • 1 HP Network Switch for shared console and admin local area network • 2 Airflow Dam • 4 Voltaire QDR IB 4036 36-port Leaf Switch • Power distribution units • Power per rack approximately 35 KW PDU

  8. Pulling It All Together

  9. 2.4 Petaflops, 1440 nodes ~50 compute racks + 6 switch racks Two Rooms, Total 160m2 1.4MW (Max, Linpack), 0.48MW (Idle)

  10. HP Industry Leading Performance/Watt/$$ Innovation on top of industry standards delivers price and power advantages #4 Supercomputer on TOP5001 142% More TFLOPS/Server1 21% Better Price/Performance1 TheGreenestProduction Supercomputer in the World2 51% Better Performance/Watt2 Most TFLOP/$ TFLOPS / $ #3 #4 #1 #2 *1 Nov 2010 TOP500 Results – compared to Tianhe 1A consisting of 7168 Xeon 5170 servers drawing 4.04MW, 4.7PF peak, HP internally estimated price versus 1442 HP SL390S G7 servers with Xeon 5170 processors drawing 1.39 MW, 2.3 Peak, HP Internally Estimated Price - http://www.top500.org/list/2010/11/100 *2 2010 Green 500 Results - http://www.green500.org/lists/2010/11/top/list.php

  11. Example Applications • 3D Protein Rigid Docking (Node 3-D FFT) • ASUCA Weather Forecast [SC10 Best Student Paper Finalist] • Multiscale Simulation of Cardiovascular flows [SC10 Gordon Bell Finalist] • Materials (Dendrite Solidification) • Earthquake Simulation

  12. “... Tokyo Tech Tsubame2 is by far the most power dense supercomputer ever built, with unprecedented performance and power capacity per rack.” Satoshi MatsuokaProfessor, Director of Research InfrastructureGSIC, Tokyo Tech

  13. Q&A http://www.gsic.titech.ac.jp/en http://www.hp.com/go/hpc

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