Data Archiving and Distribution of the Virgo antenna for gravitational wave detection

被引:0
|
作者
Barone, F. [1 ]
Eleuteri, A. [1 ]
Garufi, F. [1 ]
Milano, L. [1 ]
机构
[1] Universita di Napoli `Federico II', Napoli, Italy
来源
IEEE Transactions on Nuclear Science | 2000年 / 47卷 / 2 I期
关键词
Computer networks - Data acquisition - Data communication systems - Data storage equipment - Interferometers - Online systems - UNIX;
D O I
暂无
中图分类号
学科分类号
摘要
We describe the architecture of the Data Archiving and Distribution of the Virgo antenna for gravitational wave detection. The main characteristic of this system is the modularity of the architecture. This solution allows system upgrades without dramatic changes of the hardware and software components. The main performances are: 1. maximum sustained data flow of 10 Mbyte/s on DLT tapes (35/70 Gbyte) for the raw data archiving; 2. up to 1 Tbyte data archiving capacity on disk at a maximum sustained data flow of 25 Mbyte/s for the on-line data distribution; 3. up to 10 Mbyte/s data retrieval flow for the on-line data distribution. The basic architecture of the system consists of two sections: an acquisition and storage section and a data management section. The former is a LynxOS based system with the disks directly connected to the CPU slave boards, the latter is a DEC-Unix Alpha Server (Data Server), NFS mounting the LynxOS disks through a Fast Ethernet network.
引用
收藏
页码:319 / 323
相关论文
共 50 条
  • [41] Study of correlations between seismic data and Virgo's gravitational-wave detector data
    Figura, Przemyslaw
    Bulik, Tomasz
    Harms, Jan
    Calloni, Enrico
    Errico, Luciano
    De Rosa, Rosario
    Gennai, Alberto
    CLASSICAL AND QUANTUM GRAVITY, 2022, 39 (09)
  • [42] VIRGO: a large interferometer for Gravitational Wave detection started its first scientific run
    Acernese, F.
    Alshourbagy, M.
    Amico, P.
    Antonucci, F.
    Aoudia, S.
    Astone, P.
    Avino, S.
    Baggio, L.
    Barone, F.
    Barsotti, L.
    Barsuglia, M.
    Bauer, Th. S.
    Bigotta, S.
    Birindelli, S.
    Bizouard, M.
    Boccara, C.
    Bondu, F.
    Bosi, L.
    Braccini, S.
    Bradaschia, C.
    Brillet, A.
    Brisson, V.
    Buskulic, D.
    Cagnoli, G.
    Calloni, E.
    Campagna, E.
    Cavalier, F.
    Cavalieri, R.
    Cella, G.
    Cesarini, E.
    Chassande-Mottin, E.
    Clapson, A. -C.
    Cleva, F.
    Coccia, E.
    Corda, C.
    Corsi, A.
    Cottone, F.
    Coulon, J. -P.
    Cuoco, E.
    D'Antonio, S.
    Dan, A.
    Dattilo, V.
    Davier, M.
    De Rosa, R.
    Del Prete, M.
    Di Fiore, L.
    Di Lieto, A.
    Di Virgilio, A.
    Dujardin, B.
    Evans, M.
    TAUP2007: TENTH INTERNATIONAL CONFERENCE ON TOPICS IN ASTROPARTICLE AND UNDERGROUND PHYSICS, 2008, 120
  • [43] Data quality in gravitational wave bursts and inspiral searches in the second Virgo Science Run
    Robinet, Florent
    CLASSICAL AND QUANTUM GRAVITY, 2010, 27 (19)
  • [44] Different approaches to improve the wavefront of low-loss mirrors used in the Virgo gravitational wave antenna
    Mackowski, JM
    Pinard, L
    Dognin, L
    Ganau, P
    Lagrange, B
    Michel, C
    Morgue, M
    APPLIED SURFACE SCIENCE, 1999, 151 (1-2) : 86 - 90
  • [45] Length sensing and control in the Virgo gravitational wave interferometer
    Acernese, F.
    Amico, P.
    Al-Shourbagy, M.
    Aoudia, S.
    Avino, S.
    Babusci, D.
    Ballardin, G.
    Barille, R.
    Barone, F.
    Barsotti, Lisa
    Barsuglia, M.
    Beauville, F.
    Bizouard, M. A.
    Boccara, C.
    Bondu, F.
    Bosi, L.
    Bradaschia, C.
    Braccini, S.
    Brillet, A.
    Brisson, V.
    Brocco, L.
    Buskulic, D.
    Calloni, E.
    Campagna, E.
    Cavalier, F.
    Cavalieri, R.
    Cella, G.
    Chassande-Mottin, E.
    Corda, C.
    Clapson, A. -C.
    Cleva, F.
    Coulon, J. -P.
    Cuoco, E.
    Dattilo, V.
    Davier, M.
    De Rosa, R.
    Di Fiore, L.
    Di Virgilio, A.
    Dujardin, B.
    Eleuteri, A.
    Enard, D.
    Ferrante, I.
    Fidecaro, F.
    Fiori, I.
    Flaminio, R.
    Fournier, J. -D.
    Frasca, S.
    Frasconi, F.
    Freise, A.
    Gammaitoni, L.
    IEEE TRANSACTIONS ON INSTRUMENTATION AND MEASUREMENT, 2006, 55 (06) : 1985 - 1995
  • [46] Gravitational-Wave Observations by Advanced LIGO and Virgo
    Schmidt, P.
    16TH INTERNATIONAL CONFERENCE ON TOPICS IN ASTROPARTICLE AND UNDERGROUND PHYSICS (TAUP 2019), 2020, 1468
  • [47] Sensitivity of a VIRGO pair to relic gravitational wave backgrounds
    Babusci, D
    Giovannini, M
    CLASSICAL AND QUANTUM GRAVITY, 2000, 17 (14) : 2621 - 2633
  • [48] Optomechanical issues in the gravitational wave detector Advanced VIRGO
    Chaibi, Walid
    Bondu, Francois
    COMPTES RENDUS PHYSIQUE, 2011, 12 (9-10) : 888 - 897
  • [49] VIRGO detector rejoins gravitational-wave hunt
    Banks, Michael
    PHYSICS WORLD, 2017, 30 (09) : 8 - 8
  • [50] The commissioning of the central interferometer of the Virgo gravitational wave detector
    Acernese, F
    Amico, P
    Arnaud, N
    Babusci, D
    Barillé, R
    Barone, F
    Barsotti, L
    Barsuglia, M
    Beauville, F
    Bizouard, MA
    Boccara, C
    Bondu, F
    Bosi, L
    Bracci, L
    Braccini, S
    Bradaschia, C
    Brillet, A
    Brisson, V
    Brocco, L
    Buskulic, D
    Calamai, G
    Calloni, E
    Campagna, E
    Cavalier, F
    Cella, G
    Chassande-Mottin, E
    Cleva, F
    Cokelaer, T
    Corda, C
    Coulon, JP
    Cuoco, E
    Dattilo, V
    Davier, M
    De Rosa, R
    Di Fiore, L
    Di Virgilio, A
    Dujardin, B
    Eleuteri, A
    Enard, D
    Ferrante, I
    Fidecaro, F
    Fiori, I
    Flaminio, R
    Fournier, JD
    Frasca, S
    Frasconi, F
    Gammaitoni, L
    Gennai, A
    Giazotto, A
    Giordano, G
    ASTROPARTICLE PHYSICS, 2004, 21 (01) : 1 - 22
12345