Earth Simulator Essays

Earth Simulator Essays Earth Simulator Essay Earth Simulator Essay Earth Simulator Center Japan Agency for Marine-Earth Science and Technology (JAMSTEC) Earth Environment System Today’s talk What is the Earth Simulator ? Blessing from the Earth Simulator †High goals recreation Impact †Synoptic scale sway Heat wave †¦ Silk Road Patterns †Cloud resolve-Synoptic scale extreams Typhoon †¦ multi-scale reproductions †Climate change projection Global Warming †¦ add to IPCC report †Solid earth reenactment Earth quark †¦ Wave Propergation determining †Aurora curve reproduction Toward cutting edge recreation procedure Next stream in future The Earth Simulator ? Improvement of ES began in 1997 with the point of making a thorough comprehension of worldwide ecological changes, for example, an Earth-wide temperature boost. ?The Kyoto Protocol was opened for signature on eleventh Dec. 1997. ? Created in Mar. 2002 by STA (MEXT) and NEC with 400 M$ venture. ?Task had been emphatically advanced under Dr. Miyoshi’s course. (Dr. Miyoshi: Passed away in Nov. 2001. ) ? Its development was finished toward the finish of February, 2002 . ?The activity began from March 2002 at the Earth Simulator Center in Japan Agency for Marine-Earth Science and Technology (JAMSTEC). Computenik news in New York TImes , first prize in Top 500 from 2002-2004†¦.. (still)14th in Top 500 today. Earth Simulator ’s Impact on Society Mission of the Earth Simulator Projects ENVIRONMENT Protection of lives and properties from catastrophic events and ecological demolition INDUSTRY Huge cost decrease in creative innovation improvement which requires huge ventures SCIENCE EARTH SIMULATOR Development of imaginative research instruments joining farfrom-harmony, nonlinear and open frameworks HUMAN Paradigm move to worldwide, future-arranged perspective Location of Earth Simulator Facilities TokyoEarth Simulator Site The Earth Simulator Hard Disk Process Nodes Tape Archive System Connection Network Air Conditioning 65m Power Supply 50m Free Access Floor The Earth Simulator Hard Disk Process Nodes Tape Archive System Connection Network Air Conditioning 65m Power Supply 50m Free Access Floor The Earth Simulator Hard Disk Process Nodes Tape Archive System Connection Network Air Conditioning 65m Power Supply 50m Free Access Floor The Earth Simulator Hard Disk Process Nodes Tape Archive System Connection Network Air Conditioning 65m Power Supply 50m Free Access Floor The Earth Simulator Hard Disk Process NodesTape Archive System Connection Network Air Conditioning 65m Power Supply 50m Free Access Floor The Earth Simulator Hard Disk Process Nodes Tape Archive System Connection Network Air Conditioning 65m Power Supply 50m Free Access Floor The Earth Simulator Hard Disk Process Nodes Tape Archive System Connect ion Network Air Conditioning 65m Power Supply 50m Free Access Floor Earth Simulator Building Peak Performance : 40 TFlops Main Memory : 10 TBytes Magnetic Disk Tape : 2. 5 PBytes 640 processor hubs Magnetic Disks Connect Network 65m Power Supply Air-Conditioning Base-Isolation 50m Configuration of the Earth Simulator Peak execution/AP Peak execution/PN Shared memory/PN : 8Gflops : 64Gflops : 16GB Total number of APs : 5120 Total number of PNs : 640 Total pinnacle execution : 40Tflops Total fundamental memory : 10TB Interconnection Network (full crossbar switch) Shared Memory 16GB Arithmetic Processor #1 Arithmetic Processor #7 Arithmetic Processor #0 Shared Memory 16GB Arithmetic Processor #0 Arithmetic Processor #7 Arithmetic Processor #1 Shared Memory 16GB Arithmetic Processor #0 Arithmetic Processor #1 Arithmetic Processor #7 Processor Node #0 Processor Node #1 Processor Node #639 Mass Data Processing System (MDPS): 2. 5PBNetwork System Yokohama Institute-Network SuperSINET Octob er, 2004 ES-Network Ferry System FTP MDPS Server MDPS Graphic WS BRAVE Data Handling WS Login Server ES-LAN Earth Simulator Allocation of ES assets for 2006 Strategic Project Earth Science Climate Change Solid Earth Natural Disasters International participation Industrial application and so forth Innovative Project Space and Astrophysics Government Project IPCC Contribution and so on Computer Science Next Generation Algorithm Next Generation Architecture Next Generation Programming Language Atomic Energy CFD Application Nano Technology BioChemistry and so forth International Cooperative Research USASCRIPPS INSTITUTION OF OCEANOGRAPHY UNIVERSITY OF CALIFORNIA, SAN DIEGO Development of high goals reanalysis information THE Center NATIONAL DE LA RECHERCH SCIENTIFIQUE (CNRS) THE INSTITUT FRANCAIS DE RECHERCHE POUR LEXPLOITATIOAN DE LA MER (IFREMER) Impact of convective framework in tropical region of sea RECHERCH PREVISION NUMERIQUE, METEOROLOGICAL SERVICE OF CANADA (PRN/MSC) Ultra high goals reproduction of Hurricane Earl ITALIAN AEROSPACE RESEARCH CENTER (CIRA) [emailprotected]@[emailprotected]@[emailprotected]@[emailprotected]@[emailprotected] High goals climate determining in Italia-Alps district A @ A @ A FOR A @ A @ ATMOSPHERIC A @ NERC [emailprotected] A @GLOBAL A @ A @ A @ A @MODELLING (NCAS) METOFFICE, HADLEY Center FOR CLIMATE PREDICTION AND RESEARCH A @ A @ rance [emailprotected] F [emailprotected] Canada [emailprotected]@ Italy [emailprotected] UK USA [emailprotected] USA NATIONAL ENERGY RESEARCH SCIENTIFIC COMPUTING (NERSC) CENTER AT LAWRENCE BERKELEY NATIONAL LABORATORY Estimation of HPC THE UNIVERSITY OF TEXAS AT AUSTIN Validation and Estimation of High execution Computing Advanced Visualization Method for tera-nibble scale information DEPARTMENT OF GEOLOGY GEOPHYSICS, UNIVERSITY OF MINNESOTA THE INTERNATIONAL ARCTIC RESEARCH CENTER (IARC) OF THE (DGG/UMN) Advanced Visualization Method for tera-chomp scale information UNIVERSITY OF ALASKA FAIRBANKS Development of cutting edge polar locale odeling A @ A @ A @ A @ A @ INSTITUTE OF HIGH PERFORMANCE COMPUTING [emailprotected] Development of cutting edge computational techniques Singapore [emailprotected]@ [emailprotected] NATIONAL APPLIED RESEARCH LABORATORIES [emailprotected] High goals climate guaging displaying Impact of Ultra High Resolution Simulation for Global Atmosphere Global Ocean Typhoon Simulation 300 km versus 10 km Horizontal goals: 300 km Horizontal goals: 10 km Comparison of the Kuroshio Current 100 km versus 10 km flat goals: 100 km Horizontal goals: 10 km A Global Atmospheric Circulation Simulation with an even goals of 10 kmA Global Oceanic Circulation Simulation with a level goals of 10 km Antarctic Flow Simulation 10km goals in the even Synoptic scale sway Heat wave †¦ Silk Road Patterns Temperaturedistribution on July 20, 2004 Hydrostatic AGCM:AFES Simulation Observation Japan Meteorological Agency High Pressure improvement coming about because of wander ing Westerly Silk Road Pattern Impact of Cloud settling scale †Synoptic scale Simulation NASA O(1000)km NASA O(1000)km O(100)m NASA O(1000)km O(100)m NASA How solid will be extream under Global Warming ? Cloud Effect and Weather/ClimateCloud Effect and Weather/Climate About 10km O(100)m Cloud Effect and Weather/Climate O(1000)km About 10km O(100)m Cloud Effect and Weather/Climate O(1000)km About 10km O(100)m Not just effect on extream yet additionally to environmental change through radiation forms Scientific Gland Challenge Impact of Cloud Scale Weather Synoptic Scale Climate Change Requirements: Long Integration with Ultra High Resolution + Various segments e. g. Air Ocean Interaction (at any rate) Multi-Scale Simulator for Geoenvironment (MSSG) Scalability Days Weeks Prediction 1 5km for even 100 vertical layersLocal overwhelming Rain Prediction, and so forth. Occasional Annual Prediction 5-40 km for level, 100 vertical layers Urban Weather/Climate Prediction 10m 2km for fla t, 200 vertical layers Data: Geographical Survey Institute 5 Days Forecasting of Typhoon 10 of 2003 MSSG, non-hydrostatic Global Ocean-Atmosphere Coupled Simulation Horizontal goals km Vertical goals layers 2. 7 72 Typhoon ETAU Sea Surface Temperature after Typhoon 11 following JAXA eorc. nasda. go. jp/imgdata/themes/2005/tp050922. html 2005 Aqua, NASA Sea Surface temperature arrived at the midpoint of for 5 days(24th August 28th August)Sea Surface Temperature after Typhoon 11 following JAXA eorc. nasda. go. jp/imgdata/themes/2005/tp050922. html 2005 Aqua, NASA Sea Surface temperature arrived at the midpoint of for 5 days(24th August 28th August) Rainfall Prediction related with Typhoon 10 Global with 5. 5 km goals Observation: Nested with 1. 15 km goals Global Warming Global Warming Simulation for IPCC AR4 CREAPI (Japan) and NCAR: National Center of Atmospheric Research (USA) A1B 750ppm:const Overshoot B1 550ppm:const ?A1B senario†¦ steadily up ? overshooting senario bit by bi t down and constantChange of Precipitation in Summer Season under Global Warming Center for Climate System Research (CCSR), University of Tokyo National Institute of Environment System (NIES) Frontier Research System Center (JAMSTEC) expanded 2005 70 2075 The quantity of sweltering days will be expanded diminished After a long time from now, Averaged precipitation will be expanding. 2. 5 Global arrived at the midpoint of temperature will be up of 2. 5 2005 70 2075 Heavy precipitation will be expanding Earthquake Tokyo underneath M7 Earthquake Prof. Furumura ( Univ. Tokyo) Kumagaya Shinjuku 80 Kumagay a Shinjuku Shinnjuku 30 30Seismic wave spread Intensity 100 cm rough Domain 85km 90km 102km Resolution:50m 6. 3G networks) Crust sedimentary and rough CPU hour sedimentary Formation of aurora circular segments acquired by reenactment from the satellite starting from the earliest stage Sun-Magnetosphere-Ionosphere collaboration) SUN Micro-precariousness Solar Wind m