BibTex format
@inproceedings{Newman:2015:10.1145/2830318.2830320,
author = {Newman, H and Legrand, I and Mughal, A and Voicu, R and Kcira, D and Bunn, J and Marcos, J and Lopez, L and Barczyk, A and Bredel, M and Cury, S and Lapadatescu, V and Spiroulu, M and Vlimant, JR and Hendricks, W and Tam, T and Martelli, E and Foster, D and Papadopoulis, C and Shannigrahi, S and Hoeft, B and Lee, A and Lee, G and Tierney, B and Pouyoul, E and Monga, I and Guok, C and Bell, G and Johnston, B and Colling, D and Rand, D and Fayer, S and Boyd, E and DeMar, P and Wu, W and Spentzouris, P and Ibarra, J and Alvarez, H and Bezerra, J and Keen, A and Yeh, E and Liu, R and Chen, J and Mambretti, J and Timoteo, S and Salamao, J and Cox, C and Wildish, T and Moura, A and Dias, G and Ciuffo, L and Stanton, M and Von, Malenstein G and Rothenberg, CE and Arantes, DS and Melo, D and Barbosa, FR and Novaes, S and Iope, R and Leal, B and Bach, E and Costa, M and Pavani, G and Batista, J and Ball, R and Hockett, R and McKee, S and De, K and Gable, I and Sobie, R and Tackett, A and Melo, },
doi = {10.1145/2830318.2830320},
title = {High speed scientific data transfers using software defined networking},
url = {http://dx.doi.org/10.1145/2830318.2830320},
year = {2015}
}
RIS format (EndNote, RefMan)
TY - CPAPER
AB - The massive data volumes acquired, simulated, processed and analyzed by globally distributed scientific collaborations continue to grow exponentially. One leading example is the LHC program, now at the start of its second three year data taking cycle, searching for new particles and interactions in a previously inaccessible range of energies, which has experienced a 70% growth in peak data transfer rates over the last 12 months alone. Other major science programs such as LSST and SKA, and other disciplines ranging from earth observation to genomics, are expected to have similar or great needs than the LHC program within the next decade. The development of new methods for fast, efficient and reliable data transfers over national and global distances, and a new generation of intelligent, software-driven networks capable of supporting multiple science programs with diverse needs for high volume and/or real-time data delivery, are essential if these programs are to continue to progress, and meet their goals. In this paper we describe activities of the Caltech High Energy Physics team and collaborators, related to the use Software Defined Networking to help achieve fast and efficient data distribution and access. Results from Supercomputing 2014 are presented together with our work on the Advanced Network Services for the Experiments project, and a new project developing a Next Generation Integrated SDN Architecture, as well as our plans for Supercomputing 2015.
AU - Newman,H
AU - Legrand,I
AU - Mughal,A
AU - Voicu,R
AU - Kcira,D
AU - Bunn,J
AU - Marcos,J
AU - Lopez,L
AU - Barczyk,A
AU - Bredel,M
AU - Cury,S
AU - Lapadatescu,V
AU - Spiroulu,M
AU - Vlimant,JR
AU - Hendricks,W
AU - Tam,T
AU - Martelli,E
AU - Foster,D
AU - Papadopoulis,C
AU - Shannigrahi,S
AU - Hoeft,B
AU - Lee,A
AU - Lee,G
AU - Tierney,B
AU - Pouyoul,E
AU - Monga,I
AU - Guok,C
AU - Bell,G
AU - Johnston,B
AU - Colling,D
AU - Rand,D
AU - Fayer,S
AU - Boyd,E
AU - DeMar,P
AU - Wu,W
AU - Spentzouris,P
AU - Ibarra,J
AU - Alvarez,H
AU - Bezerra,J
AU - Keen,A
AU - Yeh,E
AU - Liu,R
AU - Chen,J
AU - Mambretti,J
AU - Timoteo,S
AU - Salamao,J
AU - Cox,C
AU - Wildish,T
AU - Moura,A
AU - Dias,G
AU - Ciuffo,L
AU - Stanton,M
AU - Von,Malenstein G
AU - Rothenberg,CE
AU - Arantes,DS
AU - Melo,D
AU - Barbosa,FR
AU - Novaes,S
AU - Iope,R
AU - Leal,B
AU - Bach,E
AU - Costa,M
AU - Pavani,G
AU - Batista,J
AU - Ball,R
AU - Hockett,R
AU - McKee,S
AU - De,K
AU - Gable,I
AU - Sobie,R
AU - Tackett,A
AU - Melo,A
AU - Sheldon,P
DO - 10.1145/2830318.2830320
PY - 2015///
TI - High speed scientific data transfers using software defined networking
UR - http://dx.doi.org/10.1145/2830318.2830320
ER -