Contact: Hirofumi Amano at Kyushu Mission 40 Years of HPC Services Though the R. I. I.

Slides:



Advertisements
Similar presentations
Supercomputing Institute for Advanced Computational Research © 2009 Regents of the University of Minnesota. All rights reserved. The Minnesota Supercomputing.
Advertisements

Introductions to Parallel Programming Using OpenMP
IBM 1350 Cluster Expansion Doug Johnson Senior Systems Developer.
♦ Commodity processor with commodity inter- processor connection Clusters Pentium, Itanium, Opteron, Alpha GigE, Infiniband, Myrinet, Quadrics, SCI NEC.
Contact: Hirofumi Amano at Kyushu 40 Years of HPC Services In this memorable year, the.
Program Systems Institute Russian Academy of Sciences1 Program Systems Institute Research Activities Overview Extended Version Alexander Moskovsky, Program.
SAN DIEGO SUPERCOMPUTER CENTER at the UNIVERSITY OF CALIFORNIA; SAN DIEGO SDSC RP Update October 21, 2010.
Information Technology Center Introduction to High Performance Computing at KFUPM.
LinkSCEEM-2: A computational resource for the development of Computational Sciences in the Eastern Mediterranean Mostafa Zoubi SESAME SESAME – LinkSCEEM.
ASKAP Central Processor: Design and Implementation Calibration and Imaging Workshop 2014 ASTRONOMY AND SPACE SCIENCE Ben Humphreys | ASKAP Software and.
ASU/TGen Computational Facility.
1. 2 Welcome to HP-CAST-NTIG at NSC 1–2 April 2008.
An Introduction to Princeton’s New Computing Resources: IBM Blue Gene, SGI Altix, and Dell Beowulf Cluster PICASso Mini-Course October 18, 2006 Curt Hillegas.
CSC Site Update HP Nordic TIG April 2008 Janne Ignatius Marko Myllynen Dan Still.
1 Maui High Performance Computing Center Open System Support An AFRL, MHPCC and UH Collaboration December 18, 2007 Mike McCraney MHPCC Operations Director.
Real Parallel Computers. Background Information Recent trends in the marketplace of high performance computing Strohmaier, Dongarra, Meuer, Simon Parallel.
High Performance Computing (HPC) at Center for Information Communication and Technology in UTM.
CPP Staff - 30 CPP Staff - 30 FCIPT Staff - 35 IPR Staff IPR Staff ITER-India Staff ITER-India Staff Research Areas: 1.Studies.
Real Parallel Computers. Modular data centers Background Information Recent trends in the marketplace of high performance computing Strohmaier, Dongarra,
Cluster Computers. Introduction Cluster computing –Standard PCs or workstations connected by a fast network –Good price/performance ratio –Exploit existing.
1 1 WLCWLCG workshop G workshop. Introduction to KISTI Introduction to NSDC Project Activities in 2009 System architecture Management plan for Alice tier-1.
KYLIN-I 麒麟一号 High-Performance Computing Cluster Institute for Fusion Theory and Simulation, Zhejiang University
Introduction to LinkSCEEM and SESAME 15 June 2014, ibis Hotel, Amman - Jordan Presented by Salman Matalgah Computing Group leader SESAME.
HPC at IISER Pune Neet Deo System Administrator
Bridging the Gap Between the CIO and the Scientist Michael A. Pearce – Deputy CIO University of Southern California (USC) Workshop April, 2006.
Information Technology at Purdue Presented by: Dr. Gerry McCartney Vice President and CIO, ITaP HPC User Forum September 8-10, 2008 Using SiCortex SC5832.
SDSC RP Update TeraGrid Roundtable Reviewing Dash Unique characteristics: –A pre-production/evaluation “data-intensive” supercomputer based.
この枠よりも外側には書かない.印刷時には,「書式」メニューの「背景」サブメニューを選び,「マスタ上のグラフィックスを非表示にする」をチェックすること. この枠よりも外側には書かない Pioneering the Computing & Communication Services for Academic.
Research Support Services Research Support Services.
CCS machine development plan for post- peta scale computing and Japanese the next generation supercomputer project Mitsuhisa Sato CCS, University of Tsukuba.
CASPUR Site Report Andrei Maslennikov Lead - Systems Karlsruhe, May 2005.
Rensselaer Why not change the world? Rensselaer Why not change the world? 1.
Date donald smits center for information technology Centre of Information Technology RUG Robert Janz Centre of Information Technology University.
November 16, 2012 Seo-Young Noh Haengjin Jang {rsyoung, Status Updates on STAR Computing at KISTI.
Edinburgh Investment in e-Science Infrastructure Dr Arthur Trew.
Welcome to KISTI KISTI-CCIN2P3 FKPPL Workshop December 1, 2008 Minsun LEE.
HPCVL High Performance Computing Virtual Laboratory Founded 1998 as a joint HPC lab between –Carleton U. (Comp. Sci.) –Queen’s U. (Engineering) –U. of.
S&T IT Research Support 11 March, 2011 ITCC. Fast Facts Team of 4 positions 3 positions filled Focus on technical support of researchers Not “IT” for.
The Birmingham Environment for Academic Research Setting the Scene Peter Watkins, School of Physics and Astronomy (on behalf of the Blue Bear team)
On High Performance Computing and Grid Activities at Vilnius Gediminas Technical University (VGTU) dr. Vadimas Starikovičius VGTU, Parallel Computing Laboratory.
NATIONAL PARTNERSHIP FOR ADVANCED COMPUTATIONAL INFRASTRUCTURE Capability Computing – High-End Resources Wayne Pfeiffer Deputy Director NPACI & SDSC NPACI.
Brent Gorda LBNL – SOS7 3/5/03 1 Planned Machines: BluePlanet SOS7 March 5, 2003 Brent Gorda Future Technologies Group Lawrence Berkeley.
Nanco: a large HPC cluster for RBNI (Russell Berrie Nanotechnology Institute) Anne Weill – Zrahia Technion,Computer Center October 2008.
PC clusters in KEK A.Manabe KEK(Japan). 22 May '01LSCC WS '012 PC clusters in KEK s Belle (in KEKB) PC clusters s Neutron Shielding Simulation cluster.
Status and plans at KEK Shoji Hashimoto Workshop on LQCD Software for Blue Gene/L, Boston University, Jan. 27, 2006.
Comprehensive Scientific Support Of Large Scale Parallel Computation David Skinner, NERSC.
NCAR RP Update Rich Loft NCAR RPPI May 7, NCAR Teragrid RP Developments Current Cyberinfrastructure –5.7 TFlops/2048 core Blue Gene/L system –100.
LSST Cluster Chris Cribbs (NCSA). LSST Cluster Power edge 1855 / 1955 Power Edge 1855 (*LSST1 – LSST 4) –Duel Core Xeon 3.6GHz (*LSST1 2XDuel Core Xeon)
Presented by NCCS Hardware Jim Rogers Director of Operations National Center for Computational Sciences.
Computing Issues for the ATLAS SWT2. What is SWT2? SWT2 is the U.S. ATLAS Southwestern Tier 2 Consortium UTA is lead institution, along with University.
Status of Tokyo LCG tier-2 center for atlas / H. Sakamoto / ISGC07 Status of Tokyo LCG Tier 2 Center for ATLAS Hiroshi Sakamoto International Center for.
SESAME-NET: Supercomputing Expertise for Small And Medium Enterprises Todor Gurov Associate Professor IICT-BAS
The Evolution of the Italian HPC Infrastructure Carlo Cavazzoni CINECA – Supercomputing Application & Innovation 31 Marzo 2015.
Hopper The next step in High Performance Computing at Auburn University February 16, 2016.
High Energy Physics at the OU Supercomputing Center for Education & Research Henry Neeman, Director OU Supercomputing Center for Education & Research University.
© Thomas Ludwig Prof. Dr. Thomas Ludwig German Climate Computing Center (DKRZ) University of Hamburg, Department for Computer Science (UHH/FBI) Disks,
KEK CC - present and future - Mitsuaki NOZAKi (KEK)
NIIF HPC services for research and education
LinkSCEEM-2: A computational resource for the development of Computational Sciences in the Eastern Mediterranean Mostafa Zoubi SESAME Outreach SESAME,
Super Computing By RIsaj t r S3 ece, roll 50.
Footer.
with Computational Scientists
A New Storage Test Bed and the Research Projects on it
Pioneering the Computing & Communication Services for Academic Studies
The C&C Center Three Major Missions: In This Presentation:
K computer RIKEN Advanced Institute for Computational Science
CUBAN ICT NETWORK UNIVERSITY COOPERATION (VLIRED
K computer RIKEN Advanced Institute for Computational Science
H2020 EU PROJECT | Topic SC1-DTH | GA:
Cluster Computers.
Presentation transcript:

Contact: Hirofumi Amano at Kyushu Mission 40 Years of HPC Services Though the R. I. I. T. is a newly-established institute (founded in 2007), its computing services have a long history, nearly 40 years. It was formerly known as "Computer Center" or "Computing and Communications Center". Since the early days of the Computer Center, it has been one of the seven national supercomputer centers in Japan. High-Performance Computing is now an essential tool for various fields of science. It shows us what we cannot see in a laboratory, such as turbulences in the supersonic stream around turbine blades of a jet engine, or the mantle convection inside our own planet. User Support Computer centers usually have professional staff supporting users in programming, debugging or performance tuning. However, they usually do not know much about various research fields such as materials engineering or molecular science. To bridge the gap between Computational Science and Computer Science, the R. I. I. T. has computational scientists and computer scientists working together. The unique collaboration of these two types of experts is the key to their cutting edge to assist users in the fundamental part of studies. Pioneering the Computing Services for Academic Studies in Japan The Research Institute for Information Technology (R. I. I. T.) of Kyushu University consists of scientists and supporting employees, but it is not just a "pure" institute. Though it is related to various aspects of information technology, its mission also includes the following IT-related services and studies:  network services for the university;  other IT-related campus-wide services;  high-performance computing services;  advanced studies for the future of these services.

?? Current Systems Lineup (Photo by Courtesy of Fujitsu, Ltd.) Scalar-Parallel Supercomputer (SMP): Fujitsu PRIMEQUEST580 (Photo by Courtesy of Fujitsu, Ltd.)  Peak Performance: 13.1 TFLOPS  #Nodes: 32  #Cores: 2,048  Memory: 4.0 TB  Node: Itanium2 1.6 GHz (dual core)×32, 128 GB Memory  Interconnect: InfiniBand 4xDDR (20Gbps) ×4 / node  Disk: 250 TB (data) + 250TB (backup) (shared with PRIMEGY cluster)  #Users: 647 (as of Oct. 2009) PC Cluster: Fujitsu PRIMERGY RX200S3  Peak Performance: 18.4 TFLOPS  #Nodes: 192×2 sets  #Cores: 1,536  Memory: 3.0 TB  Node: Xeon 3.0 GHz (dual core)×2, 8 GB Memory  Interconnect: InfiniBand 4xDDR (20Gbps) ×1 / node  #Users: 187 (as of Oct. 2009) Scalar-Parallel Supercomputer (NUMA): Hitachi SR16000/L2  Peak Performance: TFLOPS  #Nodes:42  #Cores: 1,344  Memory: 5.5 TB  Node: POWER6 4.7 GHz (dual core)× GB Memory×41 nodes + 256GB Memory×1 node  Interconnect: InfiniBand 4xDDR (20Gbps) ×2 / node  Disk: 200TB with Tape Library: 112TB  #Users: 354 (as of Oct. 2009) Upgrade History and Future Plan (Fujitsu VPP5000) (IBM eServer p5) Fujitsu PRIMEQUEST + PRIMERGY (Hitachi SR11000) ? Hitachi SR16000 March 2005 May 2009 June 2007 Spring 2011 ? (Photo by Courtesy of Hitachi, Ltd.) Spring 2013 ?