TY - GEN
T1 - InfiniCortex
T2 - ACM International Conference on Computing Frontiers, CF 2016
AU - Michalewicz, Marek T.
AU - Lian, Tan Geok
AU - Seng, Lim
AU - Low, Jonathan
AU - Southwell, David
AU - Gunthorpe, Jason
AU - Noaje, Gabriel
AU - Chien, Dominic
AU - Poppe, Yves
AU - Chrzeszczyk, Jakub
AU - Howard, Andrew
AU - Wee, Tan Tin
AU - Sing-Wu, Liou
N1 - Publisher Copyright:
© 2016 Copyright held by the owner/author(s).
PY - 2016/5/16
Y1 - 2016/5/16
N2 - Commencing in June 2014, A∗STAR Computational Re-source Centre (A∗CRC) team in Singapore, together with dozens of partners world-wide, have been building the InfiniCortex. Four concepts are integrated together to realise InfiniCortex: i) High bandwidth (∼ 10 to 100Gbps) intercontinental con-nectivity between four continents: Asia, North America, Australia and Europe; ii) InfiniBand extension technology supporting transconti-nental distances using Obsidian's Longbow range extenders; iii) Connecting separate InfiniBand sub-nets with different net topologies to create a single computational resource: Galaxy of Supercomputers [10] iv) Running workows and applications on such a distributed computational infrastructure. We have successfully demonstrated InfiniCortex prototypes at SC14 and SC15 conferences. The infrastructure com-prised of computing resources residing at multiple locations in Singapore, Japan, Australia, USA, Canada, France and Poland. Various concurrent applications, including work-ows, I/O heavy applications enabled with ADIOS system, Extempore real-Time interactive applications, and in-situ real-time visualisations were demonstrated. In this paper we briey report on basic ideas behind InfiniCortex construct, our recent successes and some ideas about further growth and extension of this project.
AB - Commencing in June 2014, A∗STAR Computational Re-source Centre (A∗CRC) team in Singapore, together with dozens of partners world-wide, have been building the InfiniCortex. Four concepts are integrated together to realise InfiniCortex: i) High bandwidth (∼ 10 to 100Gbps) intercontinental con-nectivity between four continents: Asia, North America, Australia and Europe; ii) InfiniBand extension technology supporting transconti-nental distances using Obsidian's Longbow range extenders; iii) Connecting separate InfiniBand sub-nets with different net topologies to create a single computational resource: Galaxy of Supercomputers [10] iv) Running workows and applications on such a distributed computational infrastructure. We have successfully demonstrated InfiniCortex prototypes at SC14 and SC15 conferences. The infrastructure com-prised of computing resources residing at multiple locations in Singapore, Japan, Australia, USA, Canada, France and Poland. Various concurrent applications, including work-ows, I/O heavy applications enabled with ADIOS system, Extempore real-Time interactive applications, and in-situ real-time visualisations were demonstrated. In this paper we briey report on basic ideas behind InfiniCortex construct, our recent successes and some ideas about further growth and extension of this project.
KW - ADIOS
KW - Exascale computing
KW - Extempore
KW - InfiniBand
KW - InfiniCloud
KW - InfiniCortex
KW - RDMA
KW - SKA
KW - Square Kilometer Array
KW - data transfer
KW - globally distributed concurrent supercomputer
KW - in-situ visualisation
KW - workows
UR - http://www.scopus.com/inward/record.url?scp=84978481310&partnerID=8YFLogxK
U2 - 10.1145/2903150.2912887
DO - 10.1145/2903150.2912887
M3 - Conference contribution
T3 - 2016 ACM International Conference on Computing Frontiers - Proceedings
SP - 267
EP - 273
BT - 2016 ACM International Conference on Computing Frontiers - Proceedings
PB - Association for Computing Machinery, Inc
Y2 - 16 May 2016 through 18 May 2016
ER -