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OptiPuter and AIST. Tomohiro Kudoh Grid Technology Research Center (GTRC), National Institute of Advanced Industrial Science and Technology (AIST). Who we are.
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OptiPuterand AIST Tomohiro Kudoh Grid Technology Research Center (GTRC), National Institute of Advanced Industrial Science and Technology (AIST)
Who we are • AIST (National Institute of Advanced Industrial Science and Technologies) is Japan's largest public research organization with more than 50 research units and 2,500 researchers. • GTRC (Grid Technology Research Center) is a research unit of AIST, established in 2002. GTRC has more than 50 researchers. • GTRC/AIST is a new partner of OptiPuter • Became a affiliate member this year
Some of main research themes at GTRC/AIST E-Defense Grid AIST GEO Grid Grid ASP ① Promoting Grid technology with real application experiments ② Developing Grid middle wares GridMPI™ Grid MPI 0.2 (11/07) Gfram 1.1.1 (5/17) Ninf-G 2.3 (12/21) ③ International collaboration and standardization activities
What we (will) do (in terms of OptiPuter) • Data-Intensive research and collaboration • Tiled display system and SAGE • AIST GEO Grid and GEON • Optical network infrastructure • G-lambda project
Tiled Display at AIST A tiled display system which uses the SAGE environment
GTRC and Institute of Geology and Geoinformation of AIST will collaborate with GEON project at UCSD AIST GEO Grid
Optical network + Grid • OptiPuter is a textbook case • We have a lot to learn from OptiPuter • In Japan, situation is a little bit different from that of US • Joint project of network and computer science research is not common • Network carriers have strong will and ability to create new services • We are trying to find a way to realize lambda path service in cooperation with network carriers • G-lambda project • Define an interface between users and GMPLS network carriers • Advance co-reservation of computing and network resources • Collaborative project of AIST, KDDI lab., NTT, NICT • Demo at RICE station, from 1:30pm
To make lambda path service available for everyone Lambda path service should be a “commercial service” Well defined standard interface between users and network operators is required Isolate detailed network control from users To realize inter-carrier service A standard lambda path control protocol should be used One of the most viable protocols for lambda path control and management To realize stable and high quality service on Grid at low cost Dynamic provisioning of stable wide-BW network Overview of G-lambda project GNS-WSI: Grid Network Service / Web Services Interface GMPLS (Generalized Multi-Protocol Label Switching) Simultaneous advance reservation of both computingand lambda path resources
Required # of CPU Location can be specified (optional) Request computers and bandwidth Deadline of job completion Required path and bandwidth Duration of reservation A total of 37 CPUs at 4 locations and star shaped paths are requested
Advance reservation status Reservation status of TKB cluster The path TKB-KMF Current time # of CPU CPUs reservation status Paths reservation status time
Current CPU and paths Paths are displayed based on the information from GMPLS routers
Summary • AIST is a novice partner of OptiPuter • We have a lot of possible collaboration research themes • Tiled display • Geo science research • Lambda path services • Transport protocol … • We are looking forward to future collaborations with OptiPuter partners.
Live demo of G-lambda JA101 1:30pm-3:00pm at RICE station Thank you!