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2Gbps

Modified 09:48, 24 Jun 2019 by cmigoni | Page History

    Version as of 16:15, 3 Nov 2024

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    This shows the current 2 Gbps recording status of the EVN (2017-02-12)

     

    Telescope Backend Fila10G Recorder C-band (Gbps) X-band (Gbps) K-band (Gbps) Q-band (Gbps)
    Ef DBBC2 (4) External M5B+ / Mark6 2 2 2 2
    Nt DBBC2 (4) Internal M5B+/Flexbuff 2 2 2 -
    On DBBC2 (4) Internal M5B+/MK5C /Flexbuf 2 2 2 2
    Ys DBBC2 (4) Internal M5B+/Flexbuff 2 2 2 2
    Hh DBBC2 (4) Internal M5B+/MK5C 2 2 2 -
    Mc DBBC2 (4) Internal M5C/Flexbuff 2 2 2 -
    Sh DBBC2 (4) ? M5B+ 2 2 2 -
    T6 DBBC2 (4) Internal M5B+ 2 2 - -
    Ur DBBC2 (4) Internal M5B+ 2 2 2 -
    Ku ? ? ? 1 1 1 -
    Bd R1002 DAS   M5B+ 2 2 2 -
    Sv R1002 DAS   M5B+ 2 2 2 -
    Zc R1002 DAS   M5B+ 2 2 2 -
    Wb DBBC2 (4-) Internal M5B+ 1 1 - -
    Tr DBBC2 (2) No M5B+ 1 1 1 -
    Jb1 and Jb2 DBBC2 (4) Internal M5B+ 2 - 2 -
    Sr DBBC2 (4) Internal M5C/Flexbuff - - 2 -
    Mh DBBC2 (4) External M5B+/Flexbuff - 1a 2 2
    Ir DBBC2 (4) Internal Mark5C 2 2 - -
    KVN KDAS Experimental M5B+ / Mark6 - - 2 2
    Ar ?   ? ? ? - -
    Ro70 DVP/JPL No M5C N/A 2 - -

    DBBC2 (4) means  4 ADB2 + 4 CORE2) with DDC mode 32 MHz x 8 channels x 2 pols = 256 MHz x 2 pols [digital backend]

    DBBC2 (4-) means  4 ADB2 + 2 CORE2) with DDC mode 32 MHz x 8 channels x 2 pols = 128 MHz x 2 pols [digital backend] only WSRT due to 160 MHz telescope IF

    DBBC2 (2) means 2 ADB2 + 2 CORE2). DDC Mode: 32 MHz x 4 channels x 2 pols = 128 x 2 MHz [digital backend]

    R1002 DAS can do 32 MHz x 16 channels = 512 MHz  [analog backend]

    2 Gbps capability at KVN to be tested in the next months. KVN has 32 MHz x 8 channels, 256 MHz x 1 channel, 512 MHz x 1 channel

    a) Only RCP

    Ro70 K-band recording data rate limited by bandwidth (70MHz per pol)

    Ro34 Q-band recording data rate limitedby bandwidth (70MHz per pol)