@article{oai:nifs-repository.repo.nii.ac.jp:00011258,
 author = {NAKANISHI,  Hideya and YAMANAKA, Kenjiro and TOKUNAGA, Shinsuke and OZEKI, Takahisa and HOMMA, Yuki and OHTSU, Hideo and ISHII, Yasutomo and NAKAJIMA,  Noriyoshi and YAMAMOTO, Takashi and EMOTO,  Masahiko and OHSUNA,  Masaki and ITO, Tatsuki and IMAZU,  Setsuo and INOUE,  Tomoyuki and NAKAMURA, Osamu and ABE, Shunji and URUSHIDANI, Shigeo},
 issue = {Special Issue 1},
 journal = {Plasma and Fusion Research},
 month = {Feb},
 note = {0000-0001-6388-4489, Technical verification has been progressing for high efficiency data replication between ITER and the Remote Experimentation Centre (REC) in Japan. Transferring a huge amount of data simultaneously to multiple destinations might cause excessive loads and network bandwidth on the sender so that daisy-chained relay transfer would be a considerable solution. This study demonstrates how efficiently the replication relay could be realized for the next-generation fusion experiments, such as ITER and JT-60SA. All the LHD data were consecutively sent to the REC through the global loop path (GLP: Toki - Gifu - Tokyo - Amsterdam - New York - Los Angeles - Tokyo - Aomori - Rokkasho) on SINET5 L2VPN, whose round-trip time is almost 400 ms. MMCFTP was used for the data transferring application. In both the Japan domestic path and the GLP cases, every transfer shows a very stable flattop speed as the preset 8 Gbps. However, longer gap times were needed in MMCFTP initial negotiation to establish numerous sessions. The performance optimized NVMe and iSCSI striped storages have shown higher throughputs than the ITER estimated initial data rate of 2 GB/s. Those knowledge enable the design optimization of not only the sender/receiver servers with their storages but also the intermediate relay server system.},
 title = {Demonstration of High-Speed Data Replication Relay Across Multiple Repository Sites Using a Global Loop Path},
 volume = {16},
 year = {2021}
}