1. Telescience Update Shinji Shimojo Fang-Pang Lin

2. Telescience working group on PRAGMA 1. Environment: a. Common Test Platform: b. Common Architecture i. Middleware ASK Tomas!! ii. Viz Wall (TDW) iii. Real time video streaming 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 c. Educational Component PRIME and PRIUS Co-lead by me and Fang-Pang Lin data acquisition, sharing and analysis by remote observation using sensors and devices Presented at Pragma Institute Taiwan 2007

3. biogrid project Construction of a Super computer Network ◆ 3 Pacific Rim Application Grid Middleware Assembly NCHC will host 5th PRAGMA in Oct. 2003 NCHC Osaka U. SDSC iGrid 02, joint demo, Sep. 2002 SC 02, HPC Challenge, Nov. 2002 Provided by Dr. Naoko Yamada (NCMIR) Tele-science on Tomography （ Osaka U 、 NCHC 、 UCSD ）

4. Otemachi Access point Seattle Access point UHVEM, Osaka University UHVEM, Osaka University Reno Research channel Booth #2259 Reno Research channel Booth #2259 JGN2 GEMnet2 Pacific Wave Handling up to 1.5Gbps !! IP-based uncompressed HDTV streaming Uncompressed HDTV video streaming demo@SC07 NTT ivista

5. Enabling technology of telescience Live Streaming of observation –Video transmission through High speed Internet Remote Instrumentation –TCP or Web services Observing Data acquisition –High quality CCD Data Sharing and annotation –Grid Database Data analysis and synthesis –Grid Resources Data Visualization –Tiled Display wall All elements are now integrated into Optiportal

6. Drastic Change in infrastructure in 5 years 5 years agonow HD Realtime image streaming Specialized device(KDDI) PC based low cost devices Network bandwidthLess than 1Gbps10Gbps for each cluster Remote controlSpecialized hardwareweb based semi- automatic software Analysis and synthesis software Grid-basedweb service based Remote instrumentation becomes commodity

7. SC07 Reno Booth JGN2 APAN SRB Storage GridFTP (S) gUDT SRB (S) globus_xio UDT driver GAMA (S) PERMIS (S) SRB Server GAMA Server PERMIS Server MCAT (S) GridFTP (S) gUDT SRB (S) globus_xio UDT driver TCP TCP driver /dev/shm SRB Storage SRB Storage PostgreSQL SRB (C) Tomcat GAMA(C) Penetrator Meta DB (C) Rendering Master Meta DB (S) Disk NICT Osaka Research Center Web browser Client PC レンダリング・ノード Render process Rendering Server(Cluster) SRB Server ( 32bit machine ） SAGE recv Control Server (64bit machine)

8. How to make the oral truct model? - by using Cone Beam CT ?- This experiment has been certificated by the ethics committee at Faculty of Dentistry, Osaka University Orthogonal image Segmented imageVolume rendering image 2,730,000 mesh Hexa-hedron No-overlapped

9. NICT 2005© Penetrator Demostration using Tiled Display Wall

10. Astronomical Observation on the sensor network Many explosions in our universe ！ – Gamma-ray burst – Cataclysmic variables We don ’ t know when these phenomena occur It is possible to get the first data that the luminosity changes by connecting many (small) telescopes with the network Missing data

11. GLEON 6 @ Achbold Field Station, Florida 13-14, Feb, 2008 Buoys installed in Archbold, Erken and Sunapee (dataturbine used) Moore Foundation ~$2M award for supporting GLEON & CREON CREON Integration Meeting in PRAGMA 14.

12. Tools for 2010 and beyond Tiled display wall Scalable multi-core cluster equipped with many software infrastructure connected to high speed network Reference model for Laboratory Level System(LLS) 3D or other immersive technology is now developing. –HOPE (High-definition Osaka univ. Projection Environment) is an example. Presented at IRNC Worksohp 2007

13. Recommendation for international collaboration in cyberinfrastructure Develop Hubs for international collaborations which people and technology gathers. –PRAGMA is an exemple. –They foster and sustain internationally collaborative science such as telescience, GeoGrid, GLEON, etc. –Mixture of interdisciplinary people –People exchange including students are mostly important. Develop/Deploy service oriented architecture on the network and its sustainable/operational environment in global basis. –We need different type of service on the network such as large volume data, realtime streaming, and secure data environment, etc. More data intensive application and global sensor type applications will be coming. Presented at IRNC Worksohp 2007

14. Presentations PERMIS+GAMA by you Ninomiya-san Microscope update by Sakane CREON by Fang-Pang Lin Sensor net update by Tanaka Sensor Grid by Kusumoto Smarr Tilak StarCAVE by Jurgen Schulz Etc