See also

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

Advanced sequencing#

In this tutorial we will demonstrate advanced sequencer based operations, where we focus on waveform parametrization (see Sequencer Operation). We will demonstrate this by creating a sequence that will show various sequencer features, including complex looping constructs, dynamic gain control, hardware-based modulation and marker output control.

The sequence itself will use four waveform envelopes with a duration of 1μs each; a gaussian, a sine, a sawtooth and a block. We will have several nested loops in the sequence. The first loop will increase the wait period between the start of the iteration and playback of the waveform envelope and also increase the gain of the waveform envelope on every iteration. At the end of this loop a second loop will do the inverse operations. A third loop will loop over the first and second loops to iterate over the four waveform envelopes. And finally a fourth loop will function as an infinite loop over the third loop. At the same time, the sequence will also control marker output 1 and create a trigger point at the start of each iteration of the first and second loops as well an “enable” during playback. Finally, each waveform envelope will be modulated at 10MHz.

The result of this sequence, when observed on an oscilloscope, will be iterating waveform envelopes that will be sliding over the modulation frequency with varying gain, encapsulated by an “enable” on the marker output. We highly recommend that you take a look at it, to get an impression of what is possible with the sequencers.

We can perform this tutorial with a Cluster QCM/QRM . We use the term ‘module’ encompassing both QCM and QRM modules.

Setup#

First, we are going to import the required packages.

[1]:
from __future__ import annotations

import json
import math
from typing import TYPE_CHECKING, Callable

import matplotlib.pyplot as plt
import numpy as np
import scipy.signal
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).

!qblox-pnp list

[2]:
cluster_ip = "10.10.200.42"
cluster_name = "cluster0"

Connect to Cluster#

We now make a connection with the Cluster.

[3]:
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
    ),
)

Get connected modules#

[4]:
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)
    }
[5]:
# QRM modules
modules = get_connected_modules(cluster, lambda mod: mod.is_qrm_type and not mod.is_rf_type)
modules
[5]:
{4: <Module: cluster0_module4 of Cluster: cluster0>}
[6]:
module = modules[4]

Reset the Cluster#

We reset the Cluster to enter a well-defined state. Note that resetting will clear all stored parameters, so resetting between experiments is usually not desirable.

[7]:
cluster.reset()
print(cluster.get_system_status())
Status: OKAY, Flags: NONE, Slot flags: NONE

Generate waveforms#

Next, we need to create the gaussian, sine, sawtooth and block waveform envelopes for the sequence.

[8]:
# Waveform parameters
waveform_length = 1000  # nanoseconds

# Waveform dictionary (data will hold the samples and index will be used to select the waveforms in the instrument).
waveforms = {
    "gaussian": {
        "data": scipy.signal.windows.gaussian(waveform_length, std=0.12 * waveform_length).tolist(),
        "index": 0,
    },
    "sine": {
        "data": [math.sin((2 * math.pi / waveform_length) * i) for i in range(0, waveform_length)],
        "index": 1,
    },
    "sawtooth": {
        "data": [(1.0 / (waveform_length)) * i for i in range(0, waveform_length)],
        "index": 2,
    },
    "block": {"data": [1.0 for i in range(0, waveform_length)], "index": 3},
}

Let’s plot the waveforms to see what we have created.

[9]:
time = np.arange(0, max(map(lambda d: len(d["data"]), waveforms.values())), 1)
fig, ax = plt.subplots(1, 1)

for wf, d in waveforms.items():
    ax.plot(time[: len(d["data"])], d["data"], label=wf)

ax.legend()
ax.grid(alpha=1 / 10)
ax.set_ylabel("Waveform primitive amplitude")
ax.set_xlabel("Time (ns)")

plt.draw()
plt.show()
../../../_images/tutorials_q1asm_tutorials_intermediate_advanced_sequencing_17_0.png

Create Q1ASM program#

Now that we have the waveforms for the sequence, we need a Q1ASM program that sequences the waveforms as previously described.

[10]:
# Sequence program.
seq_prog = """
                  wait_sync    4                    #Wait for synchronization
                  reset_ph                          #Reset absolute phase
                  upd_param    4                    #Update all parameters and wait 4ns
start:            move         4,R0                 #Init number of waveforms
                  move         0,R1                 #Init waveform index

mult_wave_loop:   move         166,R2               #Init number of single wave loops (increasing wait)
                  move         166,R3               #Init number of single wave loops (decreasing wait)
                  move         24,R4                #Init number of dynamic wait time (total of 4us)
                  move         3976,R5              #Init number of dynamic wait time remainder
                  move         32768,R6             #Init gain (Maximum gain)

sngl_wave_loop_0: move         800,R7               #Init number of long wait loops (total of 40ms)
                  set_mrk      15                   #Set marker to 0xF
                  upd_param    4                    #Update all parameters and wait 4ns
                  set_mrk      0                    #Set marker to 0
                  upd_param    96                   #Update all parameters and wait 96ns

                  wait         R4                   #Dynamic wait
                  add          R4,24,R4             #Increase wait

                  set_mrk      1                    #Set marker to 1
                  play         R1,R1,996            #Play waveform and wait 996ns
                  set_mrk      0                    #Set marker to 0
                  upd_param    4                    #Update all parameters and wait for 4ns

                  wait         R5                   #Compensate previous dynamic wait
                  sub          R5,24,R5             #Decrease wait

                  sub          R6,98,R6             #Decrease gain
                  nop
                  set_awg_gain R6,R6                #Set gain

long_wait_loop_0: wait         50000                #Wait 50 us
                  loop         R7,@long_wait_loop_0 #Wait total of 40ms
                  loop         R2,@sngl_wave_loop_0 #Repeat single wave loop

sngl_wave_loop_1: move         800,R7               #Init number of long wait loops (total of 40ms)
                  set_mrk      15                   #Set marker to 0xF
                  upd_param    8                    #Update all parameters and wait 8ns
                  set_mrk      0                    #Set marker to 0
                  upd_param    92                   #Update all parameters and wait 92ns

                  wait         R4                   #Dynamic wait
                  sub          R4,24,R4             #Decrease wait

                  set_mrk      1                    #Set marker to 1
                  play         R1,R1,996            #Play waveform and wait 996ns
                  set_mrk      0                    #Set marker to 0
                  upd_param    4                    #Update all parameters and wait 4ns

                  wait         R5                   #Compensate previous dynamic wait
                  add          R5,24,R5             #Increase wait

                  sub          R6,98,R6             #Decrease gain
                  nop
                  set_awg_gain R6,R6                #Set gain

long_wait_loop_1: wait         50000                #Wait for 50 us
                  loop         R7,@long_wait_loop_1 #Wait total of 40ms
                  loop         R3,@sngl_wave_loop_1 #Repeat single wave loop

                  add          R1,1,R1              #Adjust waveform index
                  loop         R0,@mult_wave_loop   #Repeat with next waveform envelope
                  jmp          @start               #Repeat entire sequence
"""

Upload sequence#

Now that we have the waveforms and Q1ASM program, we can combine them in a sequence stored in a JSON file.

[11]:
# Add sequence to single dictionary and write to JSON file.
sequence = {
    "waveforms": waveforms,
    "weights": {},
    "acquisitions": {},
    "program": seq_prog,
}
with open("sequence.json", "w", encoding="utf-8") as file:
    json.dump(sequence, file, indent=4)
    file.close()

Let’s write the JSON file to the instruments. We will use sequencer 0 and 1, which will drive outputs \(\text{O}^{[1-2]}\) and \(\text{O}^{[3-4]}\) respectively.

[12]:
# Upload sequence.
module.sequencer0.sequence("sequence.json")
module.sequencer1.sequence("sequence.json")

Play sequence#

The sequence has been uploaded to the instrument. Now we need to configure the sequencers in the instrument to use the wait_sync instruction at the start of the Q1ASM program to synchronize and to enable the hardware-based modulation at 10MHz.

[13]:
# Configure the sequencers to synchronize and enable modulation at 10MHz.
module.sequencer0.sync_en(True)
module.sequencer0.mod_en_awg(True)
module.sequencer0.nco_freq(10e6)
module.sequencer1.sync_en(True)
module.sequencer1.mod_en_awg(True)
module.sequencer1.nco_freq(10e6)

# Map sequencers to specific outputs (but first disable all sequencer connections).
module.disconnect_outputs()

# If it is a QRM, we only map sequencer 0 to the outputs.
module.sequencer0.connect_sequencer("out0_1")
if module.is_qcm_type:
    module.sequencer0.connect_sequencer("out2_3")

Now let’s start the sequence. If you want to observe the sequence, this is the time to connect an oscilloscope to marker output 1 and one or more of the four outputs. Configure the oscilloscope to trigger on marker output 1.

[14]:
# Arm and start sequencers.
module.arm_sequencer(0)
module.arm_sequencer(1)
module.start_sequencer()

# Print status of sequencers.
print(module.get_sequencer_status(0))
print(module.get_sequencer_status(1))
Status: OKAY, State: RUNNING, Info Flags: NONE, Warning Flags: NONE, Error Flags: NONE, Log: []
Status: OKAY, State: RUNNING, Info Flags: NONE, Warning Flags: NONE, Error Flags: NONE, Log: []

Before we continue, have you looked at the oscilloscope? Pretty nifty right? This is just an example. Imagine what else you can do with the power of the sequencers to control and/or speed up your experiments.

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.

[15]:
# Stop both sequencers.
module.stop_sequencer()

# Print status of both sequencers (should now say it is stopped).
print(module.get_sequencer_status(0))
print(module.get_sequencer_status(1))
print()

print("Snapshot:")
module.print_readable_snapshot(update=True)

# Reset the cluster
cluster.reset()
print(cluster.get_system_status())
Status: OKAY, State: STOPPED, Info Flags: FORCED_STOP, Warning Flags: NONE, Error Flags: NONE, Log: []
Status: OKAY, State: STOPPED, Info Flags: FORCED_STOP, Warning Flags: NONE, Error Flags: NONE, Log: []

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                     :      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                       :      True
nco_freq                         :      1e+07 (Hz)
nco_freq_cal_type_default        :      off (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                    :      in0
connect_acq_Q                    :      in1
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                       :      True
nco_freq                         :      1e+07 (Hz)
nco_freq_cal_type_default        :      off (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_sequencer2:
        parameter                       value
--------------------------------------------------------------------------------
connect_acq_I                    :      in0
connect_acq_Q                    :      in1
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_freq_cal_type_default        :      off (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                    :      in0
connect_acq_Q                    :      in1
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_freq_cal_type_default        :      off (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                    :      in0
connect_acq_Q                    :      in1
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_freq_cal_type_default        :      off (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                    :      in0
connect_acq_Q                    :      in1
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_freq_cal_type_default        :      off (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
Status: OKAY, Flags: NONE, Slot flags: NONE