See also

A Jupyter notebook version of this tutorial can be downloaded here.

Rabi experiment#

In this tutorial we will combine the techniques explained in the other tutorials and show how to perform a Rabi experiment. For this tutorial we will need one QCM to generate the Rabi pulses and one QRM to perform the readout, although the QCM could be replaced by another QRM if needed.

Ports \(\text{O}^{[1-2]}\) of the QCM are used for the driving pulse, while \(\text{O}^{[1-2]}\) of the QRM are used for the readout pulse. Finally, ports \(\text{I}^{[1-2]}\) are used for the acquisition of the readout tone. In this tutorial it is assumed \(\text{O}^{1}\) of the QRM is connected to \(\text{I}^{1}\) of the QRM for time of flight calibration. Furthermore we assume that \(\text{O}^{1}\) of the QCM and \(\text{O}^{2}\) of the QRM are connected to an external oscilloscope to view the Rabi experiment pattern. The scope can be triggered of marker 1 of the QCM.

The SYNQ technology synchronizes the programs in the two modules.

Setup#

First, we are going to import the required packages and connect to the instrument.

[1]:

from __future__ import annotations import json from typing import TYPE_CHECKING, Callable import matplotlib.pyplot as plt import numpy as np from qcodes.instrument import find_or_create_instrument from qblox_instruments import Cluster, ClusterType if TYPE_CHECKING: from qblox_instruments.qcodes_drivers.module import Module

Scan For Clusters#

We scan for the available devices connected via ethernet using the Plug & Play functionality of the Qblox Instruments package (see Plug & Play for more info).

[2]:
!qblox-pnp list
No devices found
[3]:
cluster_ip = "10.10.200.42"
cluster_name = "cluster0"

Connect to Cluster#

We now make a connection with the Cluster.

[4]:
cluster = find_or_create_instrument(
    Cluster,
    recreate=True,
    name=cluster_name,
    identifier=cluster_ip,
    dummy_cfg=(
        {
            2: ClusterType.CLUSTER_QCM,
            4: ClusterType.CLUSTER_QRM,
            6: ClusterType.CLUSTER_QCM_RF,
            8: ClusterType.CLUSTER_QRM_RF,
        }
        if cluster_ip is None
        else None
    ),
)
cluster.reset()

Get connected modules#

[5]:
def get_connected_modules(cluster: Cluster, filter_fn: Callable | None = None) -> dict[int, Module]:
    def checked_filter_fn(mod: ClusterType) -> bool:
        if filter_fn is not None:
            return filter_fn(mod)
        return True

    return {
        mod.slot_idx: mod for mod in cluster.modules if mod.present() and checked_filter_fn(mod)
    }
[6]:
# QRM baseband modules
readout_modules = get_connected_modules(cluster, lambda mod: mod.is_qrm_type and not mod.is_rf_type)
readout_modules
[6]:
{4: <Module: cluster0_module4 of Cluster: cluster0>}
[7]:
readout_module = readout_modules[4]
[8]:
# QCM baseband modules
control_modules = get_connected_modules(
    cluster, lambda mod: not mod.is_qrm_type and not mod.is_rf_type
)
control_modules
[8]:
{2: <Module: cluster0_module2 of Cluster: cluster0>}
[9]:
control_module = control_modules[2]

Sequencer Setup#

Set sync_en to synchronize across modules.

[10]:
# Set sync_en
readout_module.sequencer0.sync_en(True)
control_module.sequencer0.sync_en(True)

Configure the NCO of both the QRM and QCM to 100 MHz and enable the up- and down-conversion in the sequencers

[11]:
readout_module.sequencer0.nco_freq(100e6)
readout_module.sequencer0.mod_en_awg(True)
readout_module.sequencer0.demod_en_acq(True)

control_module.sequencer0.nco_freq(100e6)
control_module.sequencer0.mod_en_awg(True)

Configure the outputs of the QRM and QCM such that sequencer0 is the only enabled sequencer and maps to \(\text{O}^{[1-2]}\)

[12]:
# Map sequencer of the QCM to specific outputs (but first disable all sequencer connections)
control_module.disconnect_outputs()

control_module.sequencer0.connect_sequencer("out0_1")

# Map sequencer of the QRM to specific outputs (but first disable all sequencer connections)
readout_module.disconnect_outputs()
readout_module.disconnect_inputs()

readout_module.sequencer0.connect_sequencer("io0_1")

Define waveforms#

To readout the systems we define constant pulses one and zero which will be up converted by the NCO to create the appropriate tones for an IQ mixer. Similarly for driving the qubit, we define a Gaussian pulse, together with a zero pulse of equal length to serve as inputs for an IQ mixer. In this tutorial we do not assume mixers to be connected to the inputs and outputs of the QCM/QRM.

[13]:
t = np.arange(-80, 81, 1)
sigma = 20
wfs = {
    "zero": {"index": 0, "data": [0.0] * 1024},
    "one": {"index": 1, "data": [1.0] * 1024},
    "gauss": {"index": 2, "data": list(np.exp(-(0.5 * t**2 / sigma**2)))},
    "empty": {"index": 3, "data": list(0.0 * t)},
}

Hence we obtain the following waveforms for readout:

[14]:
plt.plot(wfs["zero"]["data"])
plt.plot(wfs["one"]["data"])
[14]:
[<matplotlib.lines.Line2D at 0x7f5879c6ddf0>]
../../_images/applications_q1asm_rabi_experiment_26_1.png

And for drive:

[15]:
plt.plot(wfs["gauss"]["data"])
plt.plot(wfs["empty"]["data"])
[15]:
[<matplotlib.lines.Line2D at 0x7f5879be89d0>]
../../_images/applications_q1asm_rabi_experiment_28_1.png

Finally, we define two acquisitions. A single readout to perform the calibration measurements. Secondly we create a rabi readout sequence that contains 50 different bins for saving the results, one for each of the different amplitudes used for the drive tone.

[16]:
num_bins = 50  # Number of amplitudes to be measured
acquisitions = {
    "single": {"num_bins": 1, "index": 0},
    "rabi": {"num_bins": num_bins, "index": 1},
}

Calibration experiments#

TOF calibration#

As a first step, we calibrate the time of flight (tof) for the QRM module. In order to do so, we play a readout pulse and analyze the obtained signal on the oscilloscope to find the travel time of the pulse through the system.

[17]:
qrm_prog = """
play    1, 0, 4     # start readout pulse
acquire 0, 0, 16384 # start the 'single' acquisition sequence and wait for the length of the scope acquisition window
stop
"""

Upload the program, together with the waveforms and acquisitions to the QRM

[18]:
sequence = {
    "waveforms": wfs,
    "weights": {},
    "acquisitions": acquisitions,
    "program": qrm_prog,
}
with open("sequence.json", "w", encoding="utf-8") as file:
    json.dump(sequence, file, indent=4)
    file.close()
# Upload sequence.
readout_module.sequencer0.sequence("sequence.json")

Perform the calibration experiment

[19]:
# Arm and start sequencer.
readout_module.arm_sequencer(0)
readout_module.start_sequencer()

# Wait for the sequencer and acquisition to finish with a timeout period of one minute.
readout_module.get_acquisition_status(0, 1)
readout_module.store_scope_acquisition(0, "single")
# Print status of sequencer.
print(readout_module.get_sequencer_status(0))
Status: OKAY, State: STOPPED, Info Flags: FORCED_STOP, ACQ_SCOPE_DONE_PATH_0, ACQ_SCOPE_DONE_PATH_1, ACQ_BINNING_DONE, Warning Flags: NONE, Error Flags: NONE, Log: []

Analyze the resulting signal on the scope to find the tof

[20]:
p0 = np.array(readout_module.get_acquisitions(0)["single"]["acquisition"]["scope"]["path0"]["data"])
p1 = np.array(readout_module.get_acquisitions(0)["single"]["acquisition"]["scope"]["path1"]["data"])
# Determine when the signal crosses half-max for the first time (in ns)
t_halfmax = np.where(np.abs(p0) > np.max(p0) / 2)[0][0]

# The time it takes for a sine wave to reach its half-max value is (in ns)
correction = 1 / readout_module.sequencer0.nco_freq() * 1e9 / 12

tof_measured = t_halfmax - correction
print(tof_measured)
149.16666666666666

Plot the signal on the scope, around the rising and falling edge of the acquisition signal, as determined by the tof analysis above:

[21]:
r = readout_module.get_acquisitions(0)["single"]["acquisition"]["scope"]
plt.plot(r["path0"]["data"], ".-")
plt.plot(r["path1"]["data"], ".-")
plt.axvline(tof_measured, c="k")
plt.xlim(
    tof_measured - 10 / readout_module.sequencer0.nco_freq() * 1e9,
    tof_measured + 10 / readout_module.sequencer0.nco_freq() * 1e9,
)
plt.show()

plt.plot(r["path0"]["data"], ".-")
plt.plot(r["path1"]["data"], ".-")
plt.axvline(1024 + tof_measured, c="k")
plt.xlim(
    1024 + tof_measured - 10 / readout_module.sequencer0.nco_freq() * 1e9,
    1024 + tof_measured + 10 / readout_module.sequencer0.nco_freq() * 1e9,
)
plt.show()
../../_images/applications_q1asm_rabi_experiment_42_0.png
../../_images/applications_q1asm_rabi_experiment_42_1.png

Parameters#

Set the parameters for the Rabi experiment

[22]:
# all times must be divisible by 4
reset_time = 200  # reset time for the qubit in microseconds
tof = int(tof_measured / 4) * 4  # time of flight must be divisible by 4
readout_delay = 164  # time to delay the readout pulse after the start of the rotation pulse

navg = 1000  # number of averages
stepsize = int(65535 / 100)

Rabi#

Normally, a Rabi experiment would be performed by changing the amplitude in the inner loop, and averaging in the outer loop. To make the resulting experiment visible on an oscilloscope however, in this tutorial we swapped these two loops

[23]:
# QCM sequence program.
qcm_seq_prog = f"""
# Registers used:
# R0 loops over the different awg amplitudes used for the rabi driving pulse
# R2 is used to count the averages needed for a single amplitude
# R3 contains the qubit reset time in microseconds

           move          0, R0                       # start with awg amplitude 0
           wait_sync     4                           # Synchronize the QRM with the QCM


ampl_loop: add           R0, {stepsize}, R0          # increase the pulse amplitude by the stepsize
           move          {navg}, R2                  # reset the number of averages and save in the R2 register

           # let the qubit relax to its groundstate
navg_loop: move          {reset_time}, R3            # reset the number of microseconds to wait and save in the R3 register
rst_loop:  wait          1000                        # wait 1 microsecond
           loop          R3,@rst_loop                # repeat the 1 microsecond wait as much as needed to let the qubit relax

           set_awg_gain  R0, R0                      # Set the new amplitude used for the drive pulse
           set_mrk       1                           # Set marker 1 high for to enable synchronization with external oscilloscope
           wait_sync     4                           # Synchronize with the qrm to signify a measurement is coming
           play          2,3,16384                   # Play waveforms and wait remaining duration of scope acquisition

           set_mrk       0                           # Reset marker 1
           upd_param     4

           loop          R2,@navg_loop                        # Repeat the experiment to average, until R2 becomes 0
           jlt           R0,{num_bins*stepsize},@ampl_loop    # Repeat the experiment for different pulse amplitudes from 0 to num_bins
           stop                                               # Stop.

"""

# QRM sequence program.
qrm_seq_prog = f"""
# Registers used:
# R0 counts which bin to acquire into, a new bin for every new amplitude
# R2 is used to count the averages needed for a single amplitude

           wait_sync     4                           # Synchronize the QRM with the QCM.
           move          0, R0                       # the first acquisition uses bin 0
ampl_loop: move          {navg}, R2                  # reset the amount of averages to be taken to the initial value

navg_loop: wait_sync     {readout_delay}             # wait for the QCM to signal a pulse is coming and wait the readout_delay
           play          1,0,{tof}                   # play readout pulse and wait for the tof
           acquire       1,R0,16384                  # Acquire waveforms and wait remaining duration of scope acquisition.

           loop          R2, @navg_loop              # Repeat this measurement for every average
           add           R0,1,R0                     # Increment the bin into which we are measuring
           jmp           @ampl_loop                  # repeat
"""

Upload programs and waveforms to QRM and QCM

[24]:
# Add QCM sequence to single dictionary and write to JSON file.
sequence = {
    "waveforms": wfs,
    "weights": {},
    "acquisitions": acquisitions,
    "program": qcm_seq_prog,
}
with open("qcm_sequence.json", "w", encoding="utf-8") as file:
    json.dump(sequence, file, indent=4)
    file.close()

# Add QRM sequence to single dictionary and write to JSON file.
sequence = {
    "waveforms": wfs,
    "weights": {},
    "acquisitions": acquisitions,
    "program": qrm_seq_prog,
}
with open("qrm_sequence.json", "w", encoding="utf-8") as file:
    json.dump(sequence, file, indent=4)
    file.close()

# Upload sequence to QCM.
control_module.sequencer0.sequence("qcm_sequence.json")

# Upload sequence to QRM.
readout_module.sequencer0.sequence("qrm_sequence.json")

Arm and start sequencer0 of both the QCM and QRM. The wait_sync command together with the SYNQ technology ensures both modules start simultaneously.

[25]:
# Arm and start sequencer of the QCM (only sequencer 0).
control_module.arm_sequencer(0)
control_module.start_sequencer(0)

# Arm and start sequencer of the QRM (only sequencer 0).
readout_module.arm_sequencer(0)
readout_module.start_sequencer(0)

# We didn't specify how many amplitudes would be measured, so we stop manually here.
cluster.stop_sequencer()

Stop#

Finally, let’s stop the sequencers if they haven’t already and close the instrument connection. One can also display a detailed snapshot containing the instrument parameters before closing the connection by uncommenting the corresponding lines.

[26]:
# Print status of sequencers.
print("QCM :")
print(control_module.get_sequencer_status(0))
print()

print("QRM :")
print(readout_module.get_sequencer_status(0))
print()

# Uncomment the following to print an overview of the instrument parameters.
# Print an overview of instrument parameters.
print("QCM snapshot:")
control_module.print_readable_snapshot(update=True)
print()

print("QRM snapshot:")
readout_module.print_readable_snapshot(update=True)

# Close the instrument connections.
cluster.close()
QCM :
Status: OKAY, State: STOPPED, Info Flags: FORCED_STOP, Warning Flags: NONE, Error Flags: NONE, Log: []

QRM :
Status: OKAY, State: STOPPED, Info Flags: FORCED_STOP, ACQ_SCOPE_DONE_PATH_0, ACQ_SCOPE_OVERWRITTEN_PATH_0, ACQ_SCOPE_DONE_PATH_1, ACQ_SCOPE_OVERWRITTEN_PATH_1, ACQ_BINNING_DONE, Warning Flags: NONE, Error Flags: NONE, Log: []

QCM snapshot:
cluster0_module2:
        parameter              value
--------------------------------------------------------------------------------
marker0_exp0_config     :       bypassed
marker0_exp1_config     :       bypassed
marker0_exp2_config     :       bypassed
marker0_exp3_config     :       bypassed
marker0_fir_config      :       bypassed
marker0_inv_en          :       False
marker1_exp0_config     :       bypassed
marker1_exp1_config     :       bypassed
marker1_exp2_config     :       bypassed
marker1_exp3_config     :       bypassed
marker1_fir_config      :       bypassed
marker1_inv_en          :       False
marker2_exp0_config     :       bypassed
marker2_exp1_config     :       bypassed
marker2_exp2_config     :       bypassed
marker2_exp3_config     :       bypassed
marker2_fir_config      :       bypassed
marker2_inv_en          :       False
marker3_exp0_config     :       bypassed
marker3_exp1_config     :       bypassed
marker3_exp2_config     :       bypassed
marker3_exp3_config     :       bypassed
marker3_fir_config      :       bypassed
marker3_inv_en          :       False
out0_exp0_amplitude     :       0
out0_exp0_config        :       bypassed
out0_exp0_time_constant :       0
out0_exp1_amplitude     :       0
out0_exp1_config        :       bypassed
out0_exp1_time_constant :       0
out0_exp2_amplitude     :       0
out0_exp2_config        :       bypassed
out0_exp2_time_constant :       0
out0_exp3_amplitude     :       0
out0_exp3_config        :       bypassed
out0_exp3_time_constant :       0
out0_fir_coeffs         :       [0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, ...
out0_fir_config         :       bypassed
out0_latency            :       0 (s)
out0_offset             :       0 (V)
out1_exp0_amplitude     :       0
out1_exp0_config        :       bypassed
out1_exp0_time_constant :       0
out1_exp1_amplitude     :       0
out1_exp1_config        :       bypassed
out1_exp1_time_constant :       0
out1_exp2_amplitude     :       0
out1_exp2_config        :       bypassed
out1_exp2_time_constant :       0
out1_exp3_amplitude     :       0
out1_exp3_config        :       bypassed
out1_exp3_time_constant :       0
out1_fir_coeffs         :       [0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, ...
out1_fir_config         :       bypassed
out1_latency            :       0 (s)
out1_offset             :       0 (V)
out2_exp0_amplitude     :       0
out2_exp0_config        :       bypassed
out2_exp0_time_constant :       0
out2_exp1_amplitude     :       0
out2_exp1_config        :       bypassed
out2_exp1_time_constant :       0
out2_exp2_amplitude     :       0
out2_exp2_config        :       bypassed
out2_exp2_time_constant :       0
out2_exp3_amplitude     :       0
out2_exp3_config        :       bypassed
out2_exp3_time_constant :       0
out2_fir_coeffs         :       [0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, ...
out2_fir_config         :       bypassed
out2_latency            :       0 (s)
out2_offset             :       0 (V)
out3_exp0_amplitude     :       0
out3_exp0_config        :       bypassed
out3_exp0_time_constant :       0
out3_exp1_amplitude     :       0
out3_exp1_config        :       bypassed
out3_exp1_time_constant :       0
out3_exp2_amplitude     :       0
out3_exp2_config        :       bypassed
out3_exp2_time_constant :       0
out3_exp3_amplitude     :       0
out3_exp3_config        :       bypassed
out3_exp3_time_constant :       0
out3_fir_coeffs         :       [0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0, ...
out3_fir_config         :       bypassed
out3_latency            :       0 (s)
out3_offset             :       0 (V)
present                 :       True
cluster0_module2_sequencer0:
        parameter                       value
--------------------------------------------------------------------------------
connect_out0                     :      I
connect_out1                     :      Q
connect_out2                     :      off
connect_out3                     :      off
cont_mode_en_awg_path0           :      False
cont_mode_en_awg_path1           :      False
cont_mode_waveform_idx_awg_path0 :      0
cont_mode_waveform_idx_awg_path1 :      0
gain_awg_path0                   :      1
gain_awg_path1                   :      1
marker_ovr_en                    :      False
marker_ovr_value                 :      0
mixer_corr_gain_ratio            :      1
mixer_corr_phase_offset_degree   :      -0
mod_en_awg                       :      True
nco_freq                         :      1e+08 (Hz)
nco_phase_offs                   :      0 (Degrees)
nco_prop_delay_comp              :      0 (ns)
nco_prop_delay_comp_en           :      False (ns)
offset_awg_path0                 :      0
offset_awg_path1                 :      0
sync_en                          :      True
trigger10_count_threshold        :      1
trigger10_threshold_invert       :      False
trigger11_count_threshold        :      1
trigger11_threshold_invert       :      False
trigger12_count_threshold        :      1
trigger12_threshold_invert       :      False
trigger13_count_threshold        :      1
trigger13_threshold_invert       :      False
trigger14_count_threshold        :      1
trigger14_threshold_invert       :      False
trigger15_count_threshold        :      1
trigger15_threshold_invert       :      False
trigger1_count_threshold         :      1
trigger1_threshold_invert        :      False
trigger2_count_threshold         :      1
trigger2_threshold_invert        :      False
trigger3_count_threshold         :      1
trigger3_threshold_invert        :      False
trigger4_count_threshold         :      1
trigger4_threshold_invert        :      False
trigger5_count_threshold         :      1
trigger5_threshold_invert        :      False
trigger6_count_threshold         :      1
trigger6_threshold_invert        :      False
trigger7_count_threshold         :      1
trigger7_threshold_invert        :      False
trigger8_count_threshold         :      1
trigger8_threshold_invert        :      False
trigger9_count_threshold         :      1
trigger9_threshold_invert        :      False
upsample_rate_awg_path0          :      0
upsample_rate_awg_path1          :      0
cluster0_module2_sequencer1:
        parameter                       value
--------------------------------------------------------------------------------
connect_out0                     :      off
connect_out1                     :      off
connect_out2                     :      off
connect_out3                     :      off
cont_mode_en_awg_path0           :      False
cont_mode_en_awg_path1           :      False
cont_mode_waveform_idx_awg_path0 :      0
cont_mode_waveform_idx_awg_path1 :      0
gain_awg_path0                   :      1
gain_awg_path1                   :      1
marker_ovr_en                    :      False
marker_ovr_value                 :      0
mixer_corr_gain_ratio            :      1
mixer_corr_phase_offset_degree   :      -0
mod_en_awg                       :      False
nco_freq                         :      0 (Hz)
nco_phase_offs                   :      0 (Degrees)
nco_prop_delay_comp              :      0 (ns)
nco_prop_delay_comp_en           :      False (ns)
offset_awg_path0                 :      0
offset_awg_path1                 :      0
sync_en                          :      False
trigger10_count_threshold        :      1
trigger10_threshold_invert       :      False
trigger11_count_threshold        :      1
trigger11_threshold_invert       :      False
trigger12_count_threshold        :      1
trigger12_threshold_invert       :      False
trigger13_count_threshold        :      1
trigger13_threshold_invert       :      False
trigger14_count_threshold        :      1
trigger14_threshold_invert       :      False
trigger15_count_threshold        :      1
trigger15_threshold_invert       :      False
trigger1_count_threshold         :      1
trigger1_threshold_invert        :      False
trigger2_count_threshold         :      1
trigger2_threshold_invert        :      False
trigger3_count_threshold         :      1
trigger3_threshold_invert        :      False
trigger4_count_threshold         :      1
trigger4_threshold_invert        :      False
trigger5_count_threshold         :      1
trigger5_threshold_invert        :      False
trigger6_count_threshold         :      1
trigger6_threshold_invert        :      False
trigger7_count_threshold         :      1
trigger7_threshold_invert        :      False
trigger8_count_threshold         :      1
trigger8_threshold_invert        :      False
trigger9_count_threshold         :      1
trigger9_threshold_invert        :      False
upsample_rate_awg_path0          :      0
upsample_rate_awg_path1          :      0
cluster0_module2_sequencer2:
        parameter                       value
--------------------------------------------------------------------------------
connect_out0                     :      off
connect_out1                     :      off
connect_out2                     :      off
connect_out3                     :      off
cont_mode_en_awg_path0           :      False
cont_mode_en_awg_path1           :      False
cont_mode_waveform_idx_awg_path0 :      0
cont_mode_waveform_idx_awg_path1 :      0
gain_awg_path0                   :      1
gain_awg_path1                   :      1
marker_ovr_en                    :      False
marker_ovr_value                 :      0
mixer_corr_gain_ratio            :      1
mixer_corr_phase_offset_degree   :      -0
mod_en_awg                       :      False
nco_freq                         :      0 (Hz)
nco_phase_offs                   :      0 (Degrees)
nco_prop_delay_comp              :      0 (ns)
nco_prop_delay_comp_en           :      False (ns)
offset_awg_path0                 :      0
offset_awg_path1                 :      0
sync_en                          :      False
trigger10_count_threshold        :      1
trigger10_threshold_invert       :      False
trigger11_count_threshold        :      1
trigger11_threshold_invert       :      False
trigger12_count_threshold        :      1
trigger12_threshold_invert       :      False
trigger13_count_threshold        :      1
trigger13_threshold_invert       :      False
trigger14_count_threshold        :      1
trigger14_threshold_invert       :      False
trigger15_count_threshold        :      1
trigger15_threshold_invert       :      False
trigger1_count_threshold         :      1
trigger1_threshold_invert        :      False
trigger2_count_threshold         :      1
trigger2_threshold_invert        :      False
trigger3_count_threshold         :      1
trigger3_threshold_invert        :      False
trigger4_count_threshold         :      1
trigger4_threshold_invert        :      False
trigger5_count_threshold         :      1
trigger5_threshold_invert        :      False
trigger6_count_threshold         :      1
trigger6_threshold_invert        :      False
trigger7_count_threshold         :      1
trigger7_threshold_invert        :      False
trigger8_count_threshold         :      1
trigger8_threshold_invert        :      False
trigger9_count_threshold         :      1
trigger9_threshold_invert        :      False
upsample_rate_awg_path0          :      0
upsample_rate_awg_path1          :      0
cluster0_module2_sequencer3:
        parameter                       value
--------------------------------------------------------------------------------
connect_out0                     :      off
connect_out1                     :      off
connect_out2                     :      off
connect_out3                     :      off
cont_mode_en_awg_path0           :      False
cont_mode_en_awg_path1           :      False
cont_mode_waveform_idx_awg_path0 :      0
cont_mode_waveform_idx_awg_path1 :      0
gain_awg_path0                   :      1
gain_awg_path1                   :      1
marker_ovr_en                    :      False
marker_ovr_value                 :      0
mixer_corr_gain_ratio            :      1
mixer_corr_phase_offset_degree   :      -0
mod_en_awg                       :      False
nco_freq                         :      0 (Hz)
nco_phase_offs                   :      0 (Degrees)
nco_prop_delay_comp              :      0 (ns)
nco_prop_delay_comp_en           :      False (ns)
offset_awg_path0                 :      0
offset_awg_path1                 :      0
sync_en                          :      False
trigger10_count_threshold        :      1
trigger10_threshold_invert       :      False
trigger11_count_threshold        :      1
trigger11_threshold_invert       :      False
trigger12_count_threshold        :      1
trigger12_threshold_invert       :      False
trigger13_count_threshold        :      1
trigger13_threshold_invert       :      False
trigger14_count_threshold        :      1
trigger14_threshold_invert       :      False
trigger15_count_threshold        :      1
trigger15_threshold_invert       :      False
trigger1_count_threshold         :      1
trigger1_threshold_invert        :      False
trigger2_count_threshold         :      1
trigger2_threshold_invert        :      False
trigger3_count_threshold         :      1
trigger3_threshold_invert        :      False
trigger4_count_threshold         :      1
trigger4_threshold_invert        :      False
trigger5_count_threshold         :      1
trigger5_threshold_invert        :      False
trigger6_count_threshold         :      1
trigger6_threshold_invert        :      False
trigger7_count_threshold         :      1
trigger7_threshold_invert        :      False
trigger8_count_threshold         :      1
trigger8_threshold_invert        :      False
trigger9_count_threshold         :      1
trigger9_threshold_invert        :      False
upsample_rate_awg_path0          :      0
upsample_rate_awg_path1          :      0
cluster0_module2_sequencer4:
        parameter                       value
--------------------------------------------------------------------------------
connect_out0                     :      off
connect_out1                     :      off
connect_out2                     :      off
connect_out3                     :      off
cont_mode_en_awg_path0           :      False
cont_mode_en_awg_path1           :      False
cont_mode_waveform_idx_awg_path0 :      0
cont_mode_waveform_idx_awg_path1 :      0
gain_awg_path0                   :      1
gain_awg_path1                   :      1
marker_ovr_en                    :      False
marker_ovr_value                 :      0
mixer_corr_gain_ratio            :      1
mixer_corr_phase_offset_degree   :      -0
mod_en_awg                       :      False
nco_freq                         :      0 (Hz)
nco_phase_offs                   :      0 (Degrees)
nco_prop_delay_comp              :      0 (ns)
nco_prop_delay_comp_en           :      False (ns)
offset_awg_path0                 :      0
offset_awg_path1                 :      0
sync_en                          :      False
trigger10_count_threshold        :      1
trigger10_threshold_invert       :      False
trigger11_count_threshold        :      1
trigger11_threshold_invert       :      False
trigger12_count_threshold        :      1
trigger12_threshold_invert       :      False
trigger13_count_threshold        :      1
trigger13_threshold_invert       :      False
trigger14_count_threshold        :      1
trigger14_threshold_invert       :      False
trigger15_count_threshold        :      1
trigger15_threshold_invert       :      False
trigger1_count_threshold         :      1
trigger1_threshold_invert        :      False
trigger2_count_threshold         :      1
trigger2_threshold_invert        :      False
trigger3_count_threshold         :      1
trigger3_threshold_invert        :      False
trigger4_count_threshold         :      1
trigger4_threshold_invert        :      False
trigger5_count_threshold         :      1
trigger5_threshold_invert        :      False
trigger6_count_threshold         :      1
trigger6_threshold_invert        :      False
trigger7_count_threshold         :      1
trigger7_threshold_invert        :      False
trigger8_count_threshold         :      1
trigger8_threshold_invert        :      False
trigger9_count_threshold         :      1
trigger9_threshold_invert        :      False
upsample_rate_awg_path0          :      0
upsample_rate_awg_path1          :      0
cluster0_module2_sequencer5:
        parameter                       value
--------------------------------------------------------------------------------
connect_out0                     :      off
connect_out1                     :      off
connect_out2                     :      off
connect_out3                     :      off
cont_mode_en_awg_path0           :      False
cont_mode_en_awg_path1           :      False
cont_mode_waveform_idx_awg_path0 :      0
cont_mode_waveform_idx_awg_path1 :      0
gain_awg_path0                   :      1
gain_awg_path1                   :      1
marker_ovr_en                    :      False
marker_ovr_value                 :      0
mixer_corr_gain_ratio            :      1
mixer_corr_phase_offset_degree   :      -0
mod_en_awg                       :      False
nco_freq                         :      0 (Hz)
nco_phase_offs                   :      0 (Degrees)
nco_prop_delay_comp              :      0 (ns)
nco_prop_delay_comp_en           :      False (ns)
offset_awg_path0                 :      0
offset_awg_path1                 :      0
sync_en                          :      False
trigger10_count_threshold        :      1
trigger10_threshold_invert       :      False
trigger11_count_threshold        :      1
trigger11_threshold_invert       :      False
trigger12_count_threshold        :      1
trigger12_threshold_invert       :      False
trigger13_count_threshold        :      1
trigger13_threshold_invert       :      False
trigger14_count_threshold        :      1
trigger14_threshold_invert       :      False
trigger15_count_threshold        :      1
trigger15_threshold_invert       :      False
trigger1_count_threshold         :      1
trigger1_threshold_invert        :      False
trigger2_count_threshold         :      1
trigger2_threshold_invert        :      False
trigger3_count_threshold         :      1
trigger3_threshold_invert        :      False
trigger4_count_threshold         :      1
trigger4_threshold_invert        :      False
trigger5_count_threshold         :      1
trigger5_threshold_invert        :      False
trigger6_count_threshold         :      1
trigger6_threshold_invert        :      False
trigger7_count_threshold         :      1
trigger7_threshold_invert        :      False
trigger8_count_threshold         :      1
trigger8_threshold_invert        :      False
trigger9_count_threshold         :      1
trigger9_threshold_invert        :      False
upsample_rate_awg_path0          :      0
upsample_rate_awg_path1          :      0

QRM snapshot:
cluster0_module4:
        parameter                    value
--------------------------------------------------------------------------------
in0_gain                      : -6 (dB)
in0_offset                    : 0 (V)
in1_gain                      : -6 (dB)
in1_offset                    : 0 (V)
marker0_exp0_config           : bypassed
marker0_exp1_config           : bypassed
marker0_exp2_config           : bypassed
marker0_exp3_config           : bypassed
marker0_fir_config            : bypassed
marker0_inv_en                : False
marker1_exp0_config           : bypassed
marker1_exp1_config           : bypassed
marker1_exp2_config           : bypassed
marker1_exp3_config           : bypassed
marker1_fir_config            : bypassed
marker1_inv_en                : False
marker2_exp0_config           : bypassed
marker2_exp1_config           : bypassed
marker2_exp2_config           : bypassed
marker2_exp3_config           : bypassed
marker2_fir_config            : bypassed
marker2_inv_en                : False
marker3_exp0_config           : bypassed
marker3_exp1_config           : bypassed
marker3_exp2_config           : bypassed
marker3_exp3_config           : bypassed
marker3_fir_config            : bypassed
marker3_inv_en                : False
out0_exp0_config              : bypassed
out0_exp1_config              : bypassed
out0_exp2_config              : bypassed
out0_exp3_config              : bypassed
out0_fir_config               : bypassed
out0_latency                  : 0 (s)
out0_offset                   : 0 (V)
out1_exp0_config              : bypassed
out1_exp1_config              : bypassed
out1_exp2_config              : bypassed
out1_exp3_config              : bypassed
out1_fir_config               : bypassed
out1_latency                  : 0 (s)
out1_offset                   : 0 (V)
present                       : True
scope_acq_avg_mode_en_path0   : False
scope_acq_avg_mode_en_path1   : False
scope_acq_sequencer_select    : 0
scope_acq_trigger_level_path0 : 0
scope_acq_trigger_level_path1 : 0
scope_acq_trigger_mode_path0  : sequencer
scope_acq_trigger_mode_path1  : sequencer
cluster0_module4_sequencer0:
        parameter                       value
--------------------------------------------------------------------------------
connect_acq_I                    :      in0
connect_acq_Q                    :      in1
connect_out0                     :      I
connect_out1                     :      Q
cont_mode_en_awg_path0           :      False
cont_mode_en_awg_path1           :      False
cont_mode_waveform_idx_awg_path0 :      0
cont_mode_waveform_idx_awg_path1 :      0
demod_en_acq                     :      True
gain_awg_path0                   :      1
gain_awg_path1                   :      1
integration_length_acq           :      1024
marker_ovr_en                    :      False
marker_ovr_value                 :      0
mixer_corr_gain_ratio            :      1
mixer_corr_phase_offset_degree   :      -0
mod_en_awg                       :      True
nco_freq                         :      1e+08 (Hz)
nco_phase_offs                   :      0 (Degrees)
nco_prop_delay_comp              :      0 (ns)
nco_prop_delay_comp_en           :      False (ns)
offset_awg_path0                 :      0
offset_awg_path1                 :      0
sync_en                          :      True
thresholded_acq_marker_address   :      1
thresholded_acq_marker_en        :      False
thresholded_acq_marker_invert    :      False
thresholded_acq_rotation         :      0 (Degrees)
thresholded_acq_threshold        :      0
thresholded_acq_trigger_address  :      1
thresholded_acq_trigger_en       :      False
thresholded_acq_trigger_invert   :      False
trigger10_count_threshold        :      1
trigger10_threshold_invert       :      False
trigger11_count_threshold        :      1
trigger11_threshold_invert       :      False
trigger12_count_threshold        :      1
trigger12_threshold_invert       :      False
trigger13_count_threshold        :      1
trigger13_threshold_invert       :      False
trigger14_count_threshold        :      1
trigger14_threshold_invert       :      False
trigger15_count_threshold        :      1
trigger15_threshold_invert       :      False
trigger1_count_threshold         :      1
trigger1_threshold_invert        :      False
trigger2_count_threshold         :      1
trigger2_threshold_invert        :      False
trigger3_count_threshold         :      1
trigger3_threshold_invert        :      False
trigger4_count_threshold         :      1
trigger4_threshold_invert        :      False
trigger5_count_threshold         :      1
trigger5_threshold_invert        :      False
trigger6_count_threshold         :      1
trigger6_threshold_invert        :      False
trigger7_count_threshold         :      1
trigger7_threshold_invert        :      False
trigger8_count_threshold         :      1
trigger8_threshold_invert        :      False
trigger9_count_threshold         :      1
trigger9_threshold_invert        :      False
ttl_acq_auto_bin_incr_en         :      False
ttl_acq_input_select             :      0
ttl_acq_threshold                :      0
upsample_rate_awg_path0          :      0
upsample_rate_awg_path1          :      0
cluster0_module4_sequencer1:
        parameter                       value
--------------------------------------------------------------------------------
connect_acq_I                    :      off
connect_acq_Q                    :      off
connect_out0                     :      off
connect_out1                     :      off
cont_mode_en_awg_path0           :      False
cont_mode_en_awg_path1           :      False
cont_mode_waveform_idx_awg_path0 :      0
cont_mode_waveform_idx_awg_path1 :      0
demod_en_acq                     :      False
gain_awg_path0                   :      1
gain_awg_path1                   :      1
integration_length_acq           :      1024
marker_ovr_en                    :      False
marker_ovr_value                 :      0
mixer_corr_gain_ratio            :      1
mixer_corr_phase_offset_degree   :      -0
mod_en_awg                       :      False
nco_freq                         :      0 (Hz)
nco_phase_offs                   :      0 (Degrees)
nco_prop_delay_comp              :      0 (ns)
nco_prop_delay_comp_en           :      False (ns)
offset_awg_path0                 :      0
offset_awg_path1                 :      0
sync_en                          :      False
thresholded_acq_marker_address   :      1
thresholded_acq_marker_en        :      False
thresholded_acq_marker_invert    :      False
thresholded_acq_rotation         :      0 (Degrees)
thresholded_acq_threshold        :      0
thresholded_acq_trigger_address  :      1
thresholded_acq_trigger_en       :      False
thresholded_acq_trigger_invert   :      False
trigger10_count_threshold        :      1
trigger10_threshold_invert       :      False
trigger11_count_threshold        :      1
trigger11_threshold_invert       :      False
trigger12_count_threshold        :      1
trigger12_threshold_invert       :      False
trigger13_count_threshold        :      1
trigger13_threshold_invert       :      False
trigger14_count_threshold        :      1
trigger14_threshold_invert       :      False
trigger15_count_threshold        :      1
trigger15_threshold_invert       :      False
trigger1_count_threshold         :      1
trigger1_threshold_invert        :      False
trigger2_count_threshold         :      1
trigger2_threshold_invert        :      False
trigger3_count_threshold         :      1
trigger3_threshold_invert        :      False
trigger4_count_threshold         :      1
trigger4_threshold_invert        :      False
trigger5_count_threshold         :      1
trigger5_threshold_invert        :      False
trigger6_count_threshold         :      1
trigger6_threshold_invert        :      False
trigger7_count_threshold         :      1
trigger7_threshold_invert        :      False
trigger8_count_threshold         :      1
trigger8_threshold_invert        :      False
trigger9_count_threshold         :      1
trigger9_threshold_invert        :      False
ttl_acq_auto_bin_incr_en         :      False
ttl_acq_input_select             :      0
ttl_acq_threshold                :      0
upsample_rate_awg_path0          :      0
upsample_rate_awg_path1          :      0
cluster0_module4_sequencer2:
        parameter                       value
--------------------------------------------------------------------------------
connect_acq_I                    :      off
connect_acq_Q                    :      off
connect_out0                     :      off
connect_out1                     :      off
cont_mode_en_awg_path0           :      False
cont_mode_en_awg_path1           :      False
cont_mode_waveform_idx_awg_path0 :      0
cont_mode_waveform_idx_awg_path1 :      0
demod_en_acq                     :      False
gain_awg_path0                   :      1
gain_awg_path1                   :      1
integration_length_acq           :      1024
marker_ovr_en                    :      False
marker_ovr_value                 :      0
mixer_corr_gain_ratio            :      1
mixer_corr_phase_offset_degree   :      -0
mod_en_awg                       :      False
nco_freq                         :      0 (Hz)
nco_phase_offs                   :      0 (Degrees)
nco_prop_delay_comp              :      0 (ns)
nco_prop_delay_comp_en           :      False (ns)
offset_awg_path0                 :      0
offset_awg_path1                 :      0
sync_en                          :      False
thresholded_acq_marker_address   :      1
thresholded_acq_marker_en        :      False
thresholded_acq_marker_invert    :      False
thresholded_acq_rotation         :      0 (Degrees)
thresholded_acq_threshold        :      0
thresholded_acq_trigger_address  :      1
thresholded_acq_trigger_en       :      False
thresholded_acq_trigger_invert   :      False
trigger10_count_threshold        :      1
trigger10_threshold_invert       :      False
trigger11_count_threshold        :      1
trigger11_threshold_invert       :      False
trigger12_count_threshold        :      1
trigger12_threshold_invert       :      False
trigger13_count_threshold        :      1
trigger13_threshold_invert       :      False
trigger14_count_threshold        :      1
trigger14_threshold_invert       :      False
trigger15_count_threshold        :      1
trigger15_threshold_invert       :      False
trigger1_count_threshold         :      1
trigger1_threshold_invert        :      False
trigger2_count_threshold         :      1
trigger2_threshold_invert        :      False
trigger3_count_threshold         :      1
trigger3_threshold_invert        :      False
trigger4_count_threshold         :      1
trigger4_threshold_invert        :      False
trigger5_count_threshold         :      1
trigger5_threshold_invert        :      False
trigger6_count_threshold         :      1
trigger6_threshold_invert        :      False
trigger7_count_threshold         :      1
trigger7_threshold_invert        :      False
trigger8_count_threshold         :      1
trigger8_threshold_invert        :      False
trigger9_count_threshold         :      1
trigger9_threshold_invert        :      False
ttl_acq_auto_bin_incr_en         :      False
ttl_acq_input_select             :      0
ttl_acq_threshold                :      0
upsample_rate_awg_path0          :      0
upsample_rate_awg_path1          :      0
cluster0_module4_sequencer3:
        parameter                       value
--------------------------------------------------------------------------------
connect_acq_I                    :      off
connect_acq_Q                    :      off
connect_out0                     :      off
connect_out1                     :      off
cont_mode_en_awg_path0           :      False
cont_mode_en_awg_path1           :      False
cont_mode_waveform_idx_awg_path0 :      0
cont_mode_waveform_idx_awg_path1 :      0
demod_en_acq                     :      False
gain_awg_path0                   :      1
gain_awg_path1                   :      1
integration_length_acq           :      1024
marker_ovr_en                    :      False
marker_ovr_value                 :      0
mixer_corr_gain_ratio            :      1
mixer_corr_phase_offset_degree   :      -0
mod_en_awg                       :      False
nco_freq                         :      0 (Hz)
nco_phase_offs                   :      0 (Degrees)
nco_prop_delay_comp              :      0 (ns)
nco_prop_delay_comp_en           :      False (ns)
offset_awg_path0                 :      0
offset_awg_path1                 :      0
sync_en                          :      False
thresholded_acq_marker_address   :      1
thresholded_acq_marker_en        :      False
thresholded_acq_marker_invert    :      False
thresholded_acq_rotation         :      0 (Degrees)
thresholded_acq_threshold        :      0
thresholded_acq_trigger_address  :      1
thresholded_acq_trigger_en       :      False
thresholded_acq_trigger_invert   :      False
trigger10_count_threshold        :      1
trigger10_threshold_invert       :      False
trigger11_count_threshold        :      1
trigger11_threshold_invert       :      False
trigger12_count_threshold        :      1
trigger12_threshold_invert       :      False
trigger13_count_threshold        :      1
trigger13_threshold_invert       :      False
trigger14_count_threshold        :      1
trigger14_threshold_invert       :      False
trigger15_count_threshold        :      1
trigger15_threshold_invert       :      False
trigger1_count_threshold         :      1
trigger1_threshold_invert        :      False
trigger2_count_threshold         :      1
trigger2_threshold_invert        :      False
trigger3_count_threshold         :      1
trigger3_threshold_invert        :      False
trigger4_count_threshold         :      1
trigger4_threshold_invert        :      False
trigger5_count_threshold         :      1
trigger5_threshold_invert        :      False
trigger6_count_threshold         :      1
trigger6_threshold_invert        :      False
trigger7_count_threshold         :      1
trigger7_threshold_invert        :      False
trigger8_count_threshold         :      1
trigger8_threshold_invert        :      False
trigger9_count_threshold         :      1
trigger9_threshold_invert        :      False
ttl_acq_auto_bin_incr_en         :      False
ttl_acq_input_select             :      0
ttl_acq_threshold                :      0
upsample_rate_awg_path0          :      0
upsample_rate_awg_path1          :      0
cluster0_module4_sequencer4:
        parameter                       value
--------------------------------------------------------------------------------
connect_acq_I                    :      off
connect_acq_Q                    :      off
connect_out0                     :      off
connect_out1                     :      off
cont_mode_en_awg_path0           :      False
cont_mode_en_awg_path1           :      False
cont_mode_waveform_idx_awg_path0 :      0
cont_mode_waveform_idx_awg_path1 :      0
demod_en_acq                     :      False
gain_awg_path0                   :      1
gain_awg_path1                   :      1
integration_length_acq           :      1024
marker_ovr_en                    :      False
marker_ovr_value                 :      0
mixer_corr_gain_ratio            :      1
mixer_corr_phase_offset_degree   :      -0
mod_en_awg                       :      False
nco_freq                         :      0 (Hz)
nco_phase_offs                   :      0 (Degrees)
nco_prop_delay_comp              :      0 (ns)
nco_prop_delay_comp_en           :      False (ns)
offset_awg_path0                 :      0
offset_awg_path1                 :      0
sync_en                          :      False
thresholded_acq_marker_address   :      1
thresholded_acq_marker_en        :      False
thresholded_acq_marker_invert    :      False
thresholded_acq_rotation         :      0 (Degrees)
thresholded_acq_threshold        :      0
thresholded_acq_trigger_address  :      1
thresholded_acq_trigger_en       :      False
thresholded_acq_trigger_invert   :      False
trigger10_count_threshold        :      1
trigger10_threshold_invert       :      False
trigger11_count_threshold        :      1
trigger11_threshold_invert       :      False
trigger12_count_threshold        :      1
trigger12_threshold_invert       :      False
trigger13_count_threshold        :      1
trigger13_threshold_invert       :      False
trigger14_count_threshold        :      1
trigger14_threshold_invert       :      False
trigger15_count_threshold        :      1
trigger15_threshold_invert       :      False
trigger1_count_threshold         :      1
trigger1_threshold_invert        :      False
trigger2_count_threshold         :      1
trigger2_threshold_invert        :      False
trigger3_count_threshold         :      1
trigger3_threshold_invert        :      False
trigger4_count_threshold         :      1
trigger4_threshold_invert        :      False
trigger5_count_threshold         :      1
trigger5_threshold_invert        :      False
trigger6_count_threshold         :      1
trigger6_threshold_invert        :      False
trigger7_count_threshold         :      1
trigger7_threshold_invert        :      False
trigger8_count_threshold         :      1
trigger8_threshold_invert        :      False
trigger9_count_threshold         :      1
trigger9_threshold_invert        :      False
ttl_acq_auto_bin_incr_en         :      False
ttl_acq_input_select             :      0
ttl_acq_threshold                :      0
upsample_rate_awg_path0          :      0
upsample_rate_awg_path1          :      0
cluster0_module4_sequencer5:
        parameter                       value
--------------------------------------------------------------------------------
connect_acq_I                    :      off
connect_acq_Q                    :      off
connect_out0                     :      off
connect_out1                     :      off
cont_mode_en_awg_path0           :      False
cont_mode_en_awg_path1           :      False
cont_mode_waveform_idx_awg_path0 :      0
cont_mode_waveform_idx_awg_path1 :      0
demod_en_acq                     :      False
gain_awg_path0                   :      1
gain_awg_path1                   :      1
integration_length_acq           :      1024
marker_ovr_en                    :      False
marker_ovr_value                 :      0
mixer_corr_gain_ratio            :      1
mixer_corr_phase_offset_degree   :      -0
mod_en_awg                       :      False
nco_freq                         :      0 (Hz)
nco_phase_offs                   :      0 (Degrees)
nco_prop_delay_comp              :      0 (ns)
nco_prop_delay_comp_en           :      False (ns)
offset_awg_path0                 :      0
offset_awg_path1                 :      0
sync_en                          :      False
thresholded_acq_marker_address   :      1
thresholded_acq_marker_en        :      False
thresholded_acq_marker_invert    :      False
thresholded_acq_rotation         :      0 (Degrees)
thresholded_acq_threshold        :      0
thresholded_acq_trigger_address  :      1
thresholded_acq_trigger_en       :      False
thresholded_acq_trigger_invert   :      False
trigger10_count_threshold        :      1
trigger10_threshold_invert       :      False
trigger11_count_threshold        :      1
trigger11_threshold_invert       :      False
trigger12_count_threshold        :      1
trigger12_threshold_invert       :      False
trigger13_count_threshold        :      1
trigger13_threshold_invert       :      False
trigger14_count_threshold        :      1
trigger14_threshold_invert       :      False
trigger15_count_threshold        :      1
trigger15_threshold_invert       :      False
trigger1_count_threshold         :      1
trigger1_threshold_invert        :      False
trigger2_count_threshold         :      1
trigger2_threshold_invert        :      False
trigger3_count_threshold         :      1
trigger3_threshold_invert        :      False
trigger4_count_threshold         :      1
trigger4_threshold_invert        :      False
trigger5_count_threshold         :      1
trigger5_threshold_invert        :      False
trigger6_count_threshold         :      1
trigger6_threshold_invert        :      False
trigger7_count_threshold         :      1
trigger7_threshold_invert        :      False
trigger8_count_threshold         :      1
trigger8_threshold_invert        :      False
trigger9_count_threshold         :      1
trigger9_threshold_invert        :      False
ttl_acq_auto_bin_incr_en         :      False
ttl_acq_input_select             :      0
ttl_acq_threshold                :      0
upsample_rate_awg_path0          :      0
upsample_rate_awg_path1          :      0
[ ]: