********************* ******** YAW ******** ********************* gabriele.vajente@zotws11:~/Scripts$ python my_a2l.py -m ETMX -d Y -f 30 -a 1000 -r 1 -t 120 -s set >>> Starting line in H1:SUS-ETMX_L2_DRIVEALIGN_Y2Y_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ETMX_L2_DRIVEALIGN_Y2Y_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999918, transfer function abs = 1.488402e-12 phase = 111.954013 deg. >>> Starting line in H1:SUS-ETMX_L2_DRIVEALIGN_Y2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ETMX_L2_DRIVEALIGN_Y2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999918, transfer function abs = 1.488402e-12 phase = 111.954013 deg >>> Results <<< Ratio Y2Y/Y2L: -1.106186 + 1j * -0.018378 Coherences: Y2Y = 0.999918, Y2L = 0.999994 Imaginary / Real part of ratio = 1.661349e-02 Current Y2L value = 2.400000 New Y2L value = 2.654846 >>> Setting new Y2L gain H1:SUS-ETMX_L2_DRIVEALIGN_Y2L_GAIN => 2.65484619141 >>> Saving A2L gains to /opt/rtcds/userapps/release/isc/common/scripts/decoup/rec_LHO//20181014/data_ETMX_YAWa2l_decoup_151833.txt gabriele.vajente@zotws11:~/Scripts$ python my_a2l.py -m ETMY -d Y -f 30 -a 1000 -r 1 -t 120 -s set >>> Starting line in H1:SUS-ETMY_L2_DRIVEALIGN_Y2Y_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ETMY_L2_DRIVEALIGN_Y2Y_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999965, transfer function abs = 1.754354e-12 phase = -70.718959 deg. >>> Starting line in H1:SUS-ETMY_L2_DRIVEALIGN_Y2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ETMY_L2_DRIVEALIGN_Y2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999965, transfer function abs = 1.754354e-12 phase = -70.718959 deg >>> Results <<< Ratio Y2Y/Y2L: -1.102955 + 1j * 0.035227 Coherences: Y2Y = 0.999965, Y2L = 0.999990 Imaginary / Real part of ratio = 3.193917e-02 Current Y2L value = 2.746600 New Y2L value = 3.029377 >>> Setting new Y2L gain H1:SUS-ETMY_L2_DRIVEALIGN_Y2L_GAIN => 3.02937746794 >>> Saving A2L gains to /opt/rtcds/userapps/release/isc/common/scripts/decoup/rec_LHO//20181014/data_ETMY_YAWa2l_decoup_152314.txt gabriele.vajente@zotws11:~/Scripts$ python my_a2l.py -m ITMX -d Y -f 30 -a 1000 -r 1 -t 120 -s set >>> Starting line in H1:SUS-ITMX_L2_DRIVEALIGN_Y2Y_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ITMX_L2_DRIVEALIGN_Y2Y_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.998958, transfer function abs = 1.925189e-13 phase = -64.742701 deg. >>> Starting line in H1:SUS-ITMX_L2_DRIVEALIGN_Y2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ITMX_L2_DRIVEALIGN_Y2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.998958, transfer function abs = 1.925189e-13 phase = -64.742701 deg >>> Results <<< Ratio Y2Y/Y2L: -0.461930 + 1j * -0.039215 Coherences: Y2Y = 0.998958, Y2L = 0.999869 Imaginary / Real part of ratio = 8.489455e-02 Current Y2L value = -0.793400 New Y2L value = -0.366495 >>> Setting new Y2L gain H1:SUS-ITMX_L2_DRIVEALIGN_Y2L_GAIN => -0.366494889027 >>> Saving A2L gains to /opt/rtcds/userapps/release/isc/common/scripts/decoup/rec_LHO//20181014/data_ITMX_YAWa2l_decoup_152824.txt gabriele.vajente@zotws11:~/Scripts$ python my_a2l.py -m ITMX -d Y -f 30 -a 1000 -r 1 -t 120 -s set >>> Starting line in H1:SUS-ITMX_L2_DRIVEALIGN_Y2Y_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ITMX_L2_DRIVEALIGN_Y2Y_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.998144, transfer function abs = 1.803889e-13 phase = -64.140134 deg. >>> Starting line in H1:SUS-ITMX_L2_DRIVEALIGN_Y2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ITMX_L2_DRIVEALIGN_Y2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.998144, transfer function abs = 1.803889e-13 phase = -64.140134 deg >>> Results <<< Ratio Y2Y/Y2L: -0.934271 + 1j * -0.090592 Coherences: Y2Y = 0.998144, Y2L = 0.999162 Imaginary / Real part of ratio = 9.696572e-02 Current Y2L value = -0.366495 New Y2L value = -0.342405 >>> Setting new Y2L gain H1:SUS-ITMX_L2_DRIVEALIGN_Y2L_GAIN => -0.342405494704 >>> Saving A2L gains to /opt/rtcds/userapps/release/isc/common/scripts/decoup/rec_LHO//20181014/data_ITMX_YAWa2l_decoup_153316.txt gabriele.vajente@zotws11:~/Scripts$ python my_a2l.py -m ITMY -d Y -f 30 -a 1000 -r 1 -t 120 -s set >>> Starting line in H1:SUS-ITMY_L2_DRIVEALIGN_Y2Y_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ITMY_L2_DRIVEALIGN_Y2Y_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.998549, transfer function abs = 2.098153e-13 phase = -74.968088 deg. >>> Starting line in H1:SUS-ITMY_L2_DRIVEALIGN_Y2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ITMY_L2_DRIVEALIGN_Y2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.998549, transfer function abs = 2.098153e-13 phase = -74.968088 deg >>> Results <<< Ratio Y2Y/Y2L: -0.441662 + 1j * 0.042765 Coherences: Y2Y = 0.998549, Y2L = 0.999763 Imaginary / Real part of ratio = 9.682781e-02 Current Y2L value = 0.818100 New Y2L value = 0.361324 >>> Setting new Y2L gain H1:SUS-ITMY_L2_DRIVEALIGN_Y2L_GAIN => 0.361323839557 >>> Saving A2L gains to /opt/rtcds/userapps/release/isc/common/scripts/decoup/rec_LHO//20181014/data_ITMY_YAWa2l_decoup_153742.txt ********************* ******** PIT ******** ********************* gabriele.vajente@zotws11:~/Scripts$ python my_a2l.py -m ETMX -d P -f 30 -a 1000 -r 1 -t 120 -s set >>> Starting line in H1:SUS-ETMX_L2_DRIVEALIGN_P2P_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ETMX_L2_DRIVEALIGN_P2P_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999898, transfer function abs = 2.200349e-12 phase = 111.085425 deg. >>> Starting line in H1:SUS-ETMX_L2_DRIVEALIGN_P2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ETMX_L2_DRIVEALIGN_P2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999898, transfer function abs = 2.200349e-12 phase = 111.085425 deg >>> Results <<< Ratio P2P/P2L: -1.699847 + 1j * -0.019389 Coherences: P2P = 0.999898, P2L = 0.999978 Imaginary / Real part of ratio = 1.140652e-02 Current P2L value = 2.300000 New P2L value = 3.909649 >>> Setting new P2L gain H1:SUS-ETMX_L2_DRIVEALIGN_P2L_GAIN => 3.90964915752 >>> Saving A2L gains to /opt/rtcds/userapps/release/isc/common/scripts/decoup/rec_LHO//20181014/data_ETMX_PITa2l_decoup_154338.txt gabriele.vajente@zotws11:~/Scripts$ python my_a2l.py -m ETMY -d P -f 30 -a 1000 -r 1 -t 120 -s set >>> Starting line in H1:SUS-ETMY_L2_DRIVEALIGN_P2P_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ETMY_L2_DRIVEALIGN_P2P_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999758, transfer function abs = 1.694579e-12 phase = -67.996596 deg. >>> Starting line in H1:SUS-ETMY_L2_DRIVEALIGN_P2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ETMY_L2_DRIVEALIGN_P2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999758, transfer function abs = 1.694579e-12 phase = -67.996596 deg >>> Results <<< Ratio P2P/P2L: -0.467231 + 1j * -0.010085 Coherences: P2P = 0.999758, P2L = 0.999988 Imaginary / Real part of ratio = 2.158502e-02 Current P2L value = 6.245600 New P2L value = 2.918137 >>> Setting new P2L gain H1:SUS-ETMY_L2_DRIVEALIGN_P2L_GAIN => 2.91813703685 >>> Saving A2L gains to /opt/rtcds/userapps/release/isc/common/scripts/decoup/rec_LHO//20181014/data_ETMY_PITa2l_decoup_154814.txt gabriele.vajente@zotws11:~/Scripts$ python my_a2l.py -m ITMX -d P -f 30 -a 1000 -r 1 -t 120 -s set >>> Starting line in H1:SUS-ITMX_L2_DRIVEALIGN_P2P_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ITMX_L2_DRIVEALIGN_P2P_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999813, transfer function abs = 1.293243e-12 phase = -69.842113 deg. >>> Starting line in H1:SUS-ITMX_L2_DRIVEALIGN_P2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ITMX_L2_DRIVEALIGN_P2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999813, transfer function abs = 1.293243e-12 phase = -69.842113 deg >>> Results <<< Ratio P2P/P2L: -3.185663 + 1j * -0.001587 Coherences: P2P = 0.999813, P2L = 0.999621 Imaginary / Real part of ratio = 4.980303e-04 Current P2L value = -0.773200 New P2L value = -2.463155 >>> Setting new P2L gain H1:SUS-ITMX_L2_DRIVEALIGN_P2L_GAIN => -2.46315498857 >>> Saving A2L gains to /opt/rtcds/userapps/release/isc/common/scripts/decoup/rec_LHO//20181014/data_ITMX_PITa2l_decoup_155248.txt gabriele.vajente@zotws11:~/Scripts$ python my_a2l.py -m ITMY -d P -f 30 -a 1000 -r 1 -t 120 -s set >>> Starting line in H1:SUS-ITMY_L2_DRIVEALIGN_P2P_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ITMY_L2_DRIVEALIGN_P2P_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999634, transfer function abs = 8.074846e-13 phase = 110.205580 deg. >>> Starting line in H1:SUS-ITMY_L2_DRIVEALIGN_P2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ITMY_L2_DRIVEALIGN_P2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999634, transfer function abs = 8.074846e-13 phase = 110.205580 deg >>> Results <<< Ratio P2P/P2L: -1.871941 + 1j * -0.012434 Coherences: P2P = 0.999634, P2L = 0.999564 Imaginary / Real part of ratio = 6.642133e-03 Current P2L value = -0.742700 New P2L value = -1.390291 >>> Setting new P2L gain H1:SUS-ITMY_L2_DRIVEALIGN_P2L_GAIN => -1.39029091288 >>> Saving A2L gains to /opt/rtcds/userapps/release/isc/common/scripts/decoup/rec_LHO//20181014/data_ITMY_PITa2l_decoup_155721.txt *********************** ******** YAW-2 ******** *********************** gabriele.vajente@zotws11:~/Scripts$ python my_a2l.py -m ETMX -d Y -f 30 -a 1000 -r 1 -t 120 -s set >>> Starting line in H1:SUS-ETMX_L2_DRIVEALIGN_Y2Y_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ETMX_L2_DRIVEALIGN_Y2Y_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999952, transfer function abs = 1.518776e-12 phase = 110.556980 deg. >>> Starting line in H1:SUS-ETMX_L2_DRIVEALIGN_Y2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ETMX_L2_DRIVEALIGN_Y2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999952, transfer function abs = 1.518776e-12 phase = 110.556980 deg >>> Results <<< Ratio Y2Y/Y2L: -1.014391 + 1j * -0.008614 Coherences: Y2Y = 0.999952, Y2L = 0.999957 Imaginary / Real part of ratio = 8.492029e-03 Current Y2L value = 2.654846 New Y2L value = 2.693052 >>> Setting new Y2L gain H1:SUS-ETMX_L2_DRIVEALIGN_Y2L_GAIN => 2.69305193808 >>> Saving A2L gains to /opt/rtcds/userapps/release/isc/common/scripts/decoup/rec_LHO//20181014/data_ETMX_YAWa2l_decoup_160332.txt gabriele.vajente@zotws11:~/Scripts$ python my_a2l.py -m ETMY -d Y -f 30 -a 1000 -r 1 -t 120 -s set >>> Starting line in H1:SUS-ETMY_L2_DRIVEALIGN_Y2Y_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ETMY_L2_DRIVEALIGN_Y2Y_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999938, transfer function abs = 1.743369e-12 phase = -71.435501 deg. >>> Starting line in H1:SUS-ETMY_L2_DRIVEALIGN_Y2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measuring... Stopping line in H1:SUS-ETMY_L2_DRIVEALIGN_Y2L_EXC (freq = 30.000000 Hz, ampl = 1000.000000) Measured coherence = 0.999938, transfer function abs = 1.743369e-12 phase = -71.435501 deg >>> Results <<< Ratio Y2Y/Y2L: -0.990760 + 1j * 0.035054 Coherences: Y2Y = 0.999938, Y2L = 0.999968 Imaginary / Real part of ratio = 3.538058e-02 Current Y2L value = 3.029377 New Y2L value = 3.001387 >>> Setting new Y2L gain H1:SUS-ETMY_L2_DRIVEALIGN_Y2L_GAIN => 3.00138718945 >>> Saving A2L gains to /opt/rtcds/userapps/release/isc/common/scripts/decoup/rec_LHO//20181014/data_ETMY_YAWa2l_decoup_160804.txt