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

页码：319 / 323

共 50 条

[1] Data Archiving and distribution of the Virgo antenna for gravitational wave detection
Barone, F
Eleuteri, A
Garufi, F
Milano, L
IEEE TRANSACTIONS ON NUCLEAR SCIENCE, 2000, 47 (02) : 319 - 323
[2] Data archiving and distribution of the VIRGO antenna for gravitational wave detection
Barone, F
Eleuteri, A
Garufi, F
Milano, L
GRAVITATIONAL WAVES, 2000, 523 : 461 - 462
[3] The archiving system of the Virgo antenna for gravitational wave detection
Barone, F
Garufi, F
Milano, L
Mours, B
REVIEW OF SCIENTIFIC INSTRUMENTS, 1997, 68 (10): : 3907 - 3913
[4] The Environment Monitoring of the VIRGO antenna for gravitational wave detection
Anastasio, A
Barone, F
Eleuteri, A
Garufi, F
Milano, L
GRAVITATIONAL WAVES, 2000, 523 : 463 - 464
[5] Gravitational wave signal detection with neural networks for the VIRGO antenna
Barone, F
Eleuteri, A
Garufi, F
Milano, L
Tagliaferri, R
GRAVITATIONAL WAVES, 2000, 523 : 467 - 468
[6] THE VIRGO PROJECT - A WIDE BAND ANTENNA FOR GRAVITATIONAL-WAVE DETECTION
BRADASCHIA, C
DELFABBRO, R
DIVIRGILIO, A
GIAZOTTO, A
KAUTZKY, H
MONTELATICI, V
PASSUELLO, D
BRILLET, A
CREGUT, O
HELLO, P
MAN, CN
MANH, PT
MARRAUD, A
SHOEMAKER, D
VINET, JY
BARONE, F
DIFIORE, L
MILANO, L
RUSSO, G
AGUIRREGABIRIA, JM
BEL, H
DURUISSEAU, JP
LEDENMAT, G
TOURRENC, P
CAPOZZI, M
LONGO, M
LOPS, M
PINTO, I
ROTOLI, G
DAMOUR, T
BONAZZOLA, S
MARCK, JA
GOURGHOULON, Y
HOLLOWAY, LE
FULIGNI, F
IAFOLLA, V
NATALE, G
NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT, 1990, 289 (03): : 518 - 525
[7] The VIRGO interferometer for gravitational wave detection
Caron, B
Dominjon, A
Drezen, C
Flaminio, R
Grave, X
Marion, F
Massonnet, L
Mehmel, C
Morand, R
Mours, B
Sannibale, V
Yvert, M
Babusci, D
Bellucci, S
Candusso, S
Giordano, G
Matone, G
Mackowski, JM
Pinard, L
Barone, F
Calloni, E
DiFiore, L
Flagiello, M
Garuti, F
Grado, A
Longo, M
Lops, M
Marano, S
Milano, L
Solimeno, S
Brisson, V
Cavalier, F
Davier, M
Hello, P
Heusse, P
Mann, P
Acker, Y
Barsuglia, M
Bhawal, B
Bondu, F
Brillet, A
Heitmann, H
Innocent, JM
Latrach, L
Man, CN
PhamTu, M
Tournier, E
Taubmann, M
Vinet, JY
Boccara, C
NUCLEAR PHYSICS B, 1997, : 167 - 175
[8] THE VIRGO INTERFEROMETER FOR GRAVITATIONAL WAVE DETECTION
Accadia, T.
Acernese, F.
Antonucci, F.
Astone, P.
Ballardin, G.
Barone, F.
Barsuglia, M.
Bauer, Th. S.
Beker, M. G.
Belletoile, A.
Birindelli, S.
Bitossi, M.
Bizouard, M. A.
Blom, M.
Boccara, C.
Bondu, F.
Bonelli, L.
Bonnand, R.
Boschi, V.
Bosi, L.
Bouhou, B.
Braccini, S.
Bradaschia, C.
Brillet, A.
Brisson, V.
Budzynski, R.
Bulik, T.
Bulten, H. J.
Buskulic, D.
Buy, C.
Cagnoli, G.
Calloni, E.
Campagna, E.
Canuel, B.
Carbognani, F.
Cavalier, F.
Cavalieri, R.
Cella, G.
Cesarini, E.
Chassande-Mottin, E.
Chincarini, A.
Cleva, F.
Coccia, E.
Colacino, C. N.
Colas, J.
Colla, A.
Colombini, M.
Corsi, A.
Coulon, J. -P.
Cuoco, E.
INTERNATIONAL JOURNAL OF MODERN PHYSICS D, 2011, 20 (10): : 2075 - 2079
[9] Virgo an interferometer for gravitational wave detection
Passaquieti, R
NUCLEAR PHYSICS B-PROCEEDINGS SUPPLEMENTS, 2000, 85 : 241 - 247
[10] Methods of gravitational wave detection in the VIRGO Interferometer
Acernese, F.
Amico, P.
Alshourbagy, M.
Antonucci, F.
Aoudia, S.
Astone, P.
Avino, S.
Babusci, D.
Ballardin, G.
Barone, F.
Barsotti, L.
Barsuglia, M.
Beauville, F.
Bigotta, S.
Birindelli, S.
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.
Carbognani, F.
Cavalier, F.
Cavalieri, R.
Cella, G.
Cesarini, E.
Chassande-Mottin, E.
Christensen, N.
Corda, C.
Corsi, A.
Cottone, F.
Clapson, A. C.
Cleva, F.
Coulon, J. P.
Cuoco, E.
Dari, A.
Dattilo, V.
Davier, M.
del Prete, M.
De Rosa, R.
Di Fiore, L.
Di Virgilio, A.
Dujardin, B.
Eleuteri, A.
MULTICOLORED LANDSCAPE OF COMPACT OBJECTS AND THEIR EXPLOSIVE ORIGINS, 2007, 924 : 187 - 193

← 1 2 3 4 5 →