Telescience Update Shinji Shimojo Fang-Pang Lin. Telescience working group on PRAGMA 1. Environment: a. Common Test Platform: b. Common Architecture i.

Slides:

Advertisements

Similar presentations

Electronic Visualization Laboratory University of Illinois at Chicago EVL Optical Networking Research Oliver Yu Electronic Visualization Laboratory University.

Advertisements

TDP PC Cluster Control PC JPEG2000 DEC (JPD-2000) TS/IP Device IP-NW TS/IP Device JPEG2000 ENC (JPE- 2000) TS DVB- ASI IP MPEG2 ENC HD-SDI TS DVB- ASI.

Resources WG Update PRAGMA 10. Interoperability PRAGMA TG (ANL) Moving onto EGEE GGF GIN group Trust Enabled by APGrid PMA.

E-AIRS : e-Science Aerospace Integrated Research System Nam Gyu KIM e-Science Division KISTI SC08 PRAGMA 08 Update

Telescience 19. Presentations: 7 Presentations E-Culture (Osaka Knowledge Capital City Exhibition; Nara 1300 th Anniversary) (NICT) KLEON (KISTI)

Telescience Update Shinji Shimojo Fang-Pang Lin. Telescience working group on PRAGMA 1. Environment: a. Common Test Platform: b. Common Architecture i.

Shinji Shimojo Fang-Pang Lin Telescience WG PRAGMA 17.

Telescience WG Report back Shinji Shimojo Fang-pang Lin.

Slides Please send to Arun

Telescience Update Shinji Shimojo Fang-Pang Lin. Discussions 1. Environment: a. Common Test Platform: b. Common Architecture i. Middleware ii. Viz Wall.

PRAGMA 14 Geosciences WG Activities Update G. S. Chang, W. F. Tsai NARL, Taiwan March 11, 2008.

1 N C H C 2007 /09/28 Flood Grids Fang-Pang Lin PRAGMA Institute, NCSA, 28, Sept, 2007.

Common Instrument Middleware Architecture and Federation of Instrument Resources for X-ray Crystallography Rick McMullen Indiana University.

Telescience WG Shinji Shimojo Fang-pang Lin. Discussions (since PRAGMA 11) 1. Environment: a. Common Test Platform: b. Common Architecture i. Middleware.

2 set of 4x5 tiled display will soon be installed on Osaka Univ. campuses. –Hard ware NEC 19 inch LCD1990SXi (20 + 1) –Resolution 1280 x 1024 Sun Java.

Kejun Dong, Kai Nan CNIC/CAS CNIC Resources And Activities Update Resources Working Group PRAGMA11 Workshop, Oct.16/17 Osaka, Japan.

National Institute of Advanced Industrial Science and Technology PRAGMA GEO Science WG - Global Earth Observation - GEO WG Team.

Telescience Update Shinji Shimojo Fang-Pang Lin. Discussions 1. Environment: a. Common Test Platform: b. Common Architecture i. Middleware ii. Viz Wall.

Why Optical Networks Are Emerging as the 21 st Century Driver Scientific American, January 2001.

Information Society Technologies programme 1 IST Programme - 8th Call Area IV.2 : Computing Communications and Networks Area.

Shinji Shimojo Fang-Pang Lin Telescience WG PRAGMA 18 personal.lse.ac.uk/ THIELEMA/misc.htm.

Sensor Grid Application in Nature Reserve Monitoring Prof. Xu Zhang Guang Deng Research Institute of Forest Resource Information Techniques Chinese Academy.

Telescience WG Update Fang Pang Lin Shinji Shimojo Pragma 25.

Corporation For National Research Initiatives The MAGIC Project Final Demonstration and Briefing Ira Richer 29 July 1999.

Architecture and Measured Characteristics of a Cloud Based Internet of Things May 22, 2012 The 2012 International Conference.

AHM Overview OptIPuter Overview Third All Hands Meeting OptIPuter Project San Diego Supercomputer Center University of California, San Diego January 26,

Copyright (c) 2010 Nippon Telegraph and Telephone Corp. 1 NTT Network Service Systems Laboratories / NTT Network Innovation Laboratories NTT’s Research.

Telescience Working Group Shinji Shimojo Fang-Pang Lin.

Xingfu Wu Xingfu Wu and Valerie Taylor Department of Computer Science Texas A&M University iGrid 2005, Calit2, UCSD, Sep. 29,

Electronic visualization laboratory, university of illinois at chicago Status and Plans for EVL Software Components Jason Leigh, Luc Renambot Venkat Vishwanath,

Department of ADVANCED TECHNOLOGY FUSION 1 u-Science Center Collaboration Proposals for Tele-Sciences WG Karpjoo Jeong

CMSC 828S / Saket Navlakha / 1 Sensor Web Browsing the physical world in real-time By: Vincent Tao.

Interactive and Collaborative Visualization and Exploration of Massive Data Sets ---- UC Davis Visualization Investigators: Bernd Hamann, Ken Joy, Kwan-Liu.

1 CYBERINFRASTRUCTURE FOR THE GEOSCIENCES Global Earth Observation Grid Workshop, Bangkok, Thailand, March Integration Platform.

HIPerSpace The Highly Interactive Parallelized Display Space.

Cross Strait Quad-Regional Radio Science and Wireless Technology Conference, Vol. 2, p.p. 980 – 984, July 2011 Cross Strait Quad-Regional Radio Science.

I-Visto (internet video studio system for HDTV production) Harada Yoshiaki.

ABSTRACT Real-time systems applied to seismic data acquisition, asynchronous processing, and data archiving tasks have clearly demonstrated their utility.

Toulouse 2008/6/24 Network monitoring on 10GbE Y. Kodama ITRI (Information Technology Research Institute) AIST (National Institute of Advanced.

1.  Project Goals.  Project System Overview.  System Architecture.  Data Flow.  System Inputs.  System Outputs.  Rates.  Real Time Performance.

Distributed Real-Time Systems for the Intelligent Power Grid Prof. Vincenzo Liberatore.

IPv6 Activities and Future Strategies in Chunghwa Telecom Fu-Kuei Chung Data Communications Business Group Chunghwa Telecom 2003/02.

Telescience Project and bandwidth challenge on the TransPAC Toyokazu Akiyama Cybermedia Center, Osaka University.

Impact of “application empowered” networks >The semi-conductor revolution reduced CAPEX and OPEX costs for main frame computer >But its biggest impact.

2009 Winter Wrap-up Jongchurl Park Networked Media Laboratory Dept. of Information and Communications School of Information & Mechatronics.

David Abramson & Hoang Anh Nguyen Monash University.

QoS Support in High-Speed, Wormhole Routing Networks Mario Gerla, B. Kannan, Bruce Kwan, Prasasth Palanti,Simon Walton.

LiveE! Project weather sensor network Seiichi X. Kato (Hyogo University of Health Sciences) 1.

Department of Information Engineering The Chinese University of Hong Kong A Framework for Monitoring and Measuring a Large-Scale Distributed System in.

D EPT. OF I NFO. & C OMM., KJIST Access Grid with High Quality DV Video JongWon Kim, Ph.D. 17 th APAN Meeting /JointTech WS Jan. 29 th, 2004 Networked.

Innovative Research Alliances Invited Talk IUCRP Fellows Seminar UCSD La Jolla, CA July 10, 2006 Dr. Larry Smarr Director, California Institute for Telecommunications.

Telescience WG Fang Pang Lin Shinji Shimojo Pragma 22.

Telescience for Advanced Tomography Applications 1 Telescience featuring IPv6 enabled Telemicroscopy Steven Peltier National Center for Microscopy and.

Evolution towards the Next Generation Network

Telescience Update Shinji Shimojo Fang-Pang Lin. Telescience working group on PRAGMA 1. Environment: a. Common Test Platform: b. Common Architecture i.

Microsoft Research Faculty Summit Liqian Luo Networked Embedded Computing Microsoft Research.

Pacific Rim Application and Grid Middleware Assembly: PRAGMA A community building collaborations and advancing grid-based applications Peter Arzberger,

APAN Application Technology Area HDTV WG Meeting Date : th APAN Taipei.

The OptIPuter Project Tom DeFanti, Jason Leigh, Maxine Brown, Tom Moher, Oliver Yu, Bob Grossman, Luc Renambot Electronic Visualization Laboratory, Department.

3G wireless system  Speeds from 125kbps-2Mbps  Performance in computer networking (WCDMA, WLAN Bluetooth) & mobile devices area (cell.

DSN & SensorWare Projects Rockwell Science Center –Charles Chien UCLA –Mani Srivastava, Miodrag Potkonjak USC/ISI –Brian Schott, Bob Parker Virginia Tech.

©2011, NTT 1 NTT’s SC11 Demo Plan Akeo Masuda NTT Labs.

“OptIPuter: From the End User Lab to Global Digital Assets" Panel UC Research Cyberinfrastructure Meeting October 10, 2005 Dr. Larry Smarr.

Telescience/ECOgrid breakout Shinji Shimojo (Osaka University) Fang-Pang Lin (NCHC)

Electronic Visualization Laboratory University of Illinois at Chicago

Using Virtual Reality to Monitor the GreenLight Instrument

Lennart Johnsson Professor CSC Director, PDC

Title Subtitle.

The OptIPortal, a Scalable Visualization, Storage, and Computing Termination Device for High Bandwidth Campus Bridging Presentation by Larry Smarr to.

Presented by Derek Bistline

Presentation transcript:

Telescience Update Shinji Shimojo Fang-Pang Lin

Telescience working group on PRAGMA 1. Environment: a. Common Test Platform: b. Common Architecture i. Middleware Portals, Data Turbine ii. Viz Wall (TDW), starCAVE, HOPE, … covise, sage iii. Real time video streaming iv sensors 2. Applications: a. General Targets: i. On demand real-time streaming. ii. Distributed measurement iii. Scalable, adaptive, reusable… b. Applications: Bio-medical, Earthquake, Flood Control, Meteorological, Agricultural, Ecological, Oceanographic, GeoScience, environmental monitoring for Urban Area c. Educational Component PRIME and PRIUS Co-lead by me and Fang-Pang Lin data acquisition, sharing, analysis and visualizing by remote observation using sensors and devices Presented at Pragma Institute Taiwan 2007

Step Two: Build a Rocks / SAGE OptIPortal D UIC KISTI NCSA & TRECC AIST UZurich CNIC NCHC Osaka U Source: Larry Smarr

What is the plan for this year Make 10Gbps enabled TD –Osaka U, NICT, KISTI, NCHC, Kyoto U PRIME project –3D teleexistance project –Realtime HD transmission to TDW Joint WG with GeoScience WG in PRAGMA 15 –Urban environment monitoring –Data Processing, Sharing, Visualization New Project –Parallel rendering, Interaction –Art

Peta-scale Visualization Platform (CMC and NICT) Scalable TDW with GPGPU 10G-Cluster – Asterism ADT08 (SuseLinux64) Quad Core Opteron 2350 x 2 (8core) Chelsio 10G ether S320E-CXA 32GByte DDR2 memory Quadro FX4600/ inch WUXGA display – L3 switch HP Procurve 6400cl-6XG – 10GbE X2-SC LR Optic

禁帯出 Tera-scale Volume data Unstructured Hexahedron Mesh – 72million mesh – Result data set: 4.2GByte/1step AIR Human vocal tubeCFD Simulation Result Calculation condition T2K 64 nodes via Myrinet 10G (Quad- core Opteron x 4) Total 1024 cores SX9 4 nodes via IXS 16.4G Total 64 CPUs = Simulated area

Particle-based Volume Rendering Useful for rendering of huge unstructured volume data Representing a 3D scalar volume data as a set of emissive and opaque particles Fast rendering by using GPU acceleration technique

Uncompressed HDTV on Tiled Display Wall and 10-Gbps High-Accuracy Distributed Network Monitoring NTT Network Innovation Laboratories Cybermedia Center, Osaka University Uncompressed HDTV on Tiled Display Wall:10-Gbps High-Accuracy Distributed Network Monitoring: Osaka University and NTT have developed an uncompressed HDTV streaming system for a tiled display wall. The system can receive HDTV streams from the NTT i-Visto system. NTT has also developed a protocol converter, which enables interoperation between i-Visto and iHD1500 developed by the University of Washington. NTT promotes standardization of the protocol to facilitate the wide-ranging use of uncompressed HDTV transmission. NTT has developed a 10Gbps network interface card with high- accuracy traffic-measurement capabilities, which enables distributed network monitoring systems using an application- coexistent monitoring scheme. In this booth, we demonstrate the measurement of traffic burstiness and delays using 100-ns fine-resolution packet time- stamps appended to i-Visto streams. The characteristic differences are shown on two different networks from Japan to the United States using deployed systems in Seattle and Austin. Contact: NTT Network Innovation Laboratories Osaka Austin Seattle GPS Los Angels TS 10-Gbps monitoring system i-Visto by NTT iHD1500 by University of Washington XG-2 by NTT-AT tiled display wall HD-SDI monitor protocol converter high-speed IP network This work was partially supported by the National Institute of Information and Communications Technology. i-Visto packet with time-stamp IP/UDP data i-Visto Tiled Display

Sensornet Overlays for environmental monitoring(Osaka and NAIST) P2P Overlay Platform PIAX and LiveE! ～APNG 10 th Camp in Thailand～ … SOAP I/F Sensors: - Temperature - Humidity - Raindrop - Wind speed etc. Live E! Weather Sensor Station SOAP Port Web I/F Live E! Agent on PIAX Sensor Data Storage 20 PIAX Peers with Live E! sensors Browse deployed sensors on web browser PIAX Overlay Network

Please come join us 10th APNG Camp10 NICTOsaka NAIST More Tiles SDSC KISTI AIST NCHC …