# ----------------------------------------------------------------------------
# Description : Sequencer QCoDeS interface
# Git repository : https://gitlab.com/qblox/packages/software/qblox_instruments.git
# Copyright (C) Qblox BV (2020)
# ----------------------------------------------------------------------------
# -- include -----------------------------------------------------------------
from typing import List, Union
from functools import partial
from qcodes import validators as vals
from qcodes import Instrument, InstrumentChannel
# -- class -------------------------------------------------------------------
[docs]class Sequencer(InstrumentChannel):
"""
This class represents a single sequencer. It combines all sequencer
specific parameters and functions into a single QCoDes InstrumentChannel.
"""
# ------------------------------------------------------------------------
[docs] def __init__(
self,
parent: Union[Instrument, InstrumentChannel],
name: str,
seq_idx: int,
):
"""
Creates a sequencer class and adds all relevant parameters for the
sequencer.
Parameters
----------
parent : Union[Instrument, InstrumentChannel]
The QCoDeS class to which this sequencer belongs.
name : str
Name of this sequencer channel
seq_idx : int
The index of this sequencer in the parent instrument, representing
which sequencer is controlled by this class.
Returns
----------
Raises
----------
"""
# Initialize instrument channel
super().__init__(parent, name)
# Store sequencer index
self._seq_idx = seq_idx
# Add required parent attributes for the QCoDeS parameters to function
for attr_name in Sequencer._get_required_parent_attr_names():
self._register(attr_name)
# Add parameters
# -- Channel map (All modules) ---------------------------------------
self.add_parameter(
"channel_map_path0_out0_en",
label="Sequencer path 0 output 0 enable",
docstring="Sets/gets sequencer channel map enable of path 0 to "
"output 0.",
unit="",
vals=vals.Bool(),
set_parser=bool,
get_parser=bool,
set_cmd=partial(self._set_sequencer_channel_map, 0),
get_cmd=partial(self._get_sequencer_channel_map, 0),
)
self.add_parameter(
"channel_map_path1_out1_en",
label="Sequencer path 1 output 1 enable",
docstring="Sets/gets sequencer channel map enable of path 1 to "
"output 1.",
unit="",
vals=vals.Bool(),
set_parser=bool,
get_parser=bool,
set_cmd=partial(self._set_sequencer_channel_map, 1),
get_cmd=partial(self._get_sequencer_channel_map, 1),
)
if self.parent.is_qcm_type:
self.add_parameter(
"channel_map_path0_out2_en",
label="Sequencer path 0 output 2 enable.",
docstring="Sets/gets sequencer channel map enable of path 0 "
"to output 2.",
unit="",
vals=vals.Bool(),
set_parser=bool,
get_parser=bool,
set_cmd=partial(self._set_sequencer_channel_map, 2),
get_cmd=partial(self._get_sequencer_channel_map, 2),
)
self.add_parameter(
"channel_map_path1_out3_en",
label="Sequencer path 1 output 3 enable.",
docstring="Sets/gets sequencer channel map enable of path 1 "
"to output 3.",
unit="",
vals=vals.Bool(),
set_parser=bool,
get_parser=bool,
set_cmd=partial(self._set_sequencer_channel_map, 3),
get_cmd=partial(self._get_sequencer_channel_map, 3),
)
# -- Sequencer (All modules) -----------------------------------------
self.add_parameter(
"sync_en",
label="Sequencer synchronization enable",
docstring="Sets/gets sequencer synchronization enable which "
"enables party-line synchronization.",
unit="",
vals=vals.Bool(),
set_parser=bool,
get_parser=bool,
set_cmd=partial(
self._set_sequencer_config_val,
"sync_en"
),
get_cmd=partial(
self._get_sequencer_config_val,
"sync_en"
),
)
self.add_parameter(
"nco_freq",
label="Sequencer NCO frequency",
docstring="Sets/gets sequencer NCO frequency in Hz with a "
"resolution of 0.25 Hz.",
unit="Hz",
vals=vals.Numbers(-300e6, 300e6),
set_parser=float,
get_parser=float,
set_cmd=partial(
self._set_sequencer_config_val,
"freq_hz"
),
get_cmd=partial(
self._get_sequencer_config_val,
"freq_hz"
),
)
self.add_parameter(
"nco_phase_offs",
label="Sequencer NCO phase offset",
docstring="Sets/gets sequencer NCO phase offset in degrees with "
"a resolution of 3.6e-7 degrees.",
unit="Degrees",
vals=vals.Numbers(0, 360),
set_parser=float,
get_parser=float,
set_cmd=partial(
self._set_sequencer_config_val,
"phase_offs_degree"
),
get_cmd=partial(
self._get_sequencer_config_val,
"phase_offs_degree"
),
)
self.add_parameter(
"marker_ovr_en",
label="Sequencer marker override enable",
docstring="Sets/gets sequencer marker override enable.",
unit="",
vals=vals.Bool(),
set_parser=bool,
get_parser=bool,
set_cmd=partial(
self._set_sequencer_config_val,
"mrk_ovr_en"
),
get_cmd=partial(
self._get_sequencer_config_val,
"mrk_ovr_en"
),
)
self.add_parameter(
"marker_ovr_value",
label="Sequencer marker override value",
docstring="Sets/gets sequencer marker override value. Bit index "
"corresponds to marker channel index.",
unit="",
vals=vals.Numbers(0, 15),
set_parser=int,
get_parser=int,
set_cmd=partial(
self._set_sequencer_config_val,
"mrk_ovr_val"
),
get_cmd=partial(
self._get_sequencer_config_val,
"mrk_ovr_val"
),
)
self.add_parameter(
"sequence",
label="Sequence",
docstring="Sets sequencer's AWG waveforms, acquistion weights, "
"acquisitions and Q1ASM program. Valid input is a "
"string representing the JSON filename or a JSON "
"compatible dictionary.",
vals=vals.MultiType(vals.Strings(), vals.Dict()),
set_cmd=self._set_sequence,
)
# -- AWG settings (All modules) --------------------------------------
self.add_parameter(
"cont_mode_en_awg_path0",
label="Sequencer continous waveform mode enable for AWG path 0",
docstring="Sets/gets sequencer continous waveform mode enable "
"for AWG path 0.",
unit="",
vals=vals.Bool(),
set_parser=bool,
get_parser=bool,
set_cmd=partial(
self._set_sequencer_config_val,
"cont_mode_en_awg_path_0"
),
get_cmd=partial(
self._get_sequencer_config_val,
"cont_mode_en_awg_path_0"
),
)
self.add_parameter(
"cont_mode_en_awg_path1",
label="Sequencer continous waveform mode enable for AWG path 1",
docstring="Sets/gets sequencer continous waveform mode enable "
"for AWG path 1.",
unit="",
vals=vals.Bool(),
set_parser=bool,
get_parser=bool,
set_cmd=partial(
self._set_sequencer_config_val,
"cont_mode_en_awg_path_1"
),
get_cmd=partial(
self._get_sequencer_config_val,
"cont_mode_en_awg_path_1"
),
)
self.add_parameter(
"cont_mode_waveform_idx_awg_path0",
label="Sequencer continous waveform mode waveform index for "
"AWG path 0",
docstring="Sets/gets sequencer continous waveform mode waveform "
"index or AWG path 0.",
unit="",
vals=vals.Numbers(0, 2 ** 10 - 1),
set_parser=int,
get_parser=int,
set_cmd=partial(
self._set_sequencer_config_val,
"cont_mode_waveform_idx_awg_path_0"
),
get_cmd=partial(
self._get_sequencer_config_val,
"cont_mode_waveform_idx_awg_path_0"
),
)
self.add_parameter(
"cont_mode_waveform_idx_awg_path1",
label="Sequencer continous waveform mode waveform index for "
"AWG path 1",
docstring="Sets/gets sequencer continous waveform mode waveform "
"index or AWG path 1.",
unit="",
vals=vals.Numbers(0, 2 ** 10 - 1),
set_parser=int,
get_parser=int,
set_cmd=partial(
self._set_sequencer_config_val,
"cont_mode_waveform_idx_awg_path_1"
),
get_cmd=partial(
self._get_sequencer_config_val,
"cont_mode_waveform_idx_awg_path_1"
),
)
self.add_parameter(
"upsample_rate_awg_path0",
label="Sequencer upsample rate for AWG path 0",
docstring="Sets/gets sequencer upsample rate for AWG path 0.",
unit="",
vals=vals.Numbers(0, 2 ** 16 - 1),
set_parser=int,
get_parser=int,
set_cmd=partial(
self._set_sequencer_config_val,
"upsample_rate_awg_path_0"
),
get_cmd=partial(
self._get_sequencer_config_val,
"upsample_rate_awg_path_0"
),
)
self.add_parameter(
"upsample_rate_awg_path1",
label="Sequencer upsample rate for AWG path 1",
docstring="Sets/gets sequencer upsample rate for AWG path 1.",
unit="",
vals=vals.Numbers(0, 2 ** 16 - 1),
set_parser=int,
get_parser=int,
set_cmd=partial(
self._set_sequencer_config_val,
"upsample_rate_awg_path_1"
),
get_cmd=partial(
self._get_sequencer_config_val,
"upsample_rate_awg_path_1"
),
)
self.add_parameter(
"gain_awg_path0",
label="Sequencer gain for AWG path 0",
docstring="Sets/gets sequencer gain for AWG path 0.",
unit="",
vals=vals.Numbers(-1.0, 1.0),
set_parser=float,
get_parser=float,
set_cmd=partial(
self._set_sequencer_config_val,
"gain_awg_path_0_float"
),
get_cmd=partial(
self._get_sequencer_config_val,
"gain_awg_path_0_float"
),
)
self.add_parameter(
"gain_awg_path1",
label="Sequencer gain for AWG path 1",
docstring="Sets/gets sequencer gain for AWG path 1.",
unit="",
vals=vals.Numbers(-1.0, 1.0),
set_parser=float,
get_parser=float,
set_cmd=partial(
self._set_sequencer_config_val,
"gain_awg_path_1_float"
),
get_cmd=partial(
self._get_sequencer_config_val,
"gain_awg_path_1_float"
),
)
self.add_parameter(
"offset_awg_path0",
label="Sequencer offset for AWG path 0",
docstring="Sets/gets sequencer offset for AWG path 0.",
unit="",
vals=vals.Numbers(-1.0, 1.0),
set_parser=float,
get_parser=float,
set_cmd=partial(
self._set_sequencer_config_val,
"offset_awg_path_0_float"
),
get_cmd=partial(
self._get_sequencer_config_val,
"offset_awg_path_0_float"
),
)
self.add_parameter(
"offset_awg_path1",
label="Sequencer offset for AWG path 1",
docstring="Sets/gets sequencer offset for AWG path 1.",
unit="",
vals=vals.Numbers(-1.0, 1.0),
set_parser=float,
get_parser=float,
set_cmd=partial(
self._set_sequencer_config_val,
"offset_awg_path_1_float"
),
get_cmd=partial(
self._get_sequencer_config_val,
"offset_awg_path_1_float"
),
)
self.add_parameter(
"mixer_corr_phase_offset_degree",
label="Sequencer mixer phase imbalance correction",
docstring="Sets/gets sequencer mixer phase imbalance correction "
"for AWG; applied to AWG path 1 relative to AWG path 0 "
"and measured in degrees",
unit="",
vals=vals.Numbers(-45.0, 45.0),
set_parser=float,
get_parser=float,
set_cmd=partial(
self._set_sequencer_config_val,
"mixer_corr_phase_offset_degree_float"
),
get_cmd=partial(
self._get_sequencer_config_val,
"mixer_corr_phase_offset_degree_float"
),
)
self.add_parameter(
"mixer_corr_gain_ratio",
label="Sequencer mixer gain imbalance correction",
docstring="Sets/gets sequencer mixer gain imbalance correction "
"for AWG; equal to AWG path 1 amplitude divided by "
"AWG path 0 amplitude.",
unit="",
vals=vals.Numbers(0.5, 2.0),
set_parser=float,
get_parser=float,
set_cmd=partial(
self._set_sequencer_config_val,
"mixer_corr_gain_ratio_float"
),
get_cmd=partial(
self._get_sequencer_config_val,
"mixer_corr_gain_ratio_float"
),
)
self.add_parameter(
"mod_en_awg",
label="Sequencer modulation enable",
docstring="Sets/gets sequencer modulation enable for AWG.",
unit="",
vals=vals.Bool(),
set_parser=bool,
get_parser=bool,
set_cmd=partial(
self._set_sequencer_config_val,
"mod_en_awg"
),
get_cmd=partial(
self._get_sequencer_config_val,
"mod_en_awg"
),
)
# -- Acquisition settings (QRM modules only) -------------------------
if self.parent.is_qrm_type:
self.add_parameter(
"demod_en_acq",
label="Sequencer demodulation enable",
docstring="Sets/gets sequencer demodulation enable for "
"acquisition.",
unit="",
vals=vals.Bool(),
set_parser=bool,
get_parser=bool,
set_cmd=partial(
self._set_sequencer_config_val,
"demod_en_acq"
),
get_cmd=partial(
self._get_sequencer_config_val,
"demod_en_acq"
),
)
self.add_parameter(
"integration_length_acq",
label="Sequencer integration length",
docstring="Sets/gets sequencer integration length in number "
"of samples for non-weighed acquisitions on paths "
"0 and 1. Must be a multiple of 4",
unit="",
vals=vals.Multiples(4, min_value=4, max_value=2 ** 24 - 4),
set_parser=int,
get_parser=int,
set_cmd=partial(
self._set_sequencer_config_val,
"non_weighed_integration_len"
),
get_cmd=partial(
self._get_sequencer_config_val,
"non_weighed_integration_len"
),
)
self.add_parameter(
"phase_rotation_acq",
label="Sequencer integration result phase rotation",
docstring="Sets/gets sequencer integration result phase "
"rotation in degrees.",
unit="Degrees",
vals=vals.Numbers(0, 360),
set_parser=float,
get_parser=float,
set_cmd=self._set_sequencer_config_rotation_matrix,
get_cmd=self._get_sequencer_config_rotation_matrix,
)
self.add_parameter(
"discretization_threshold_acq",
label="Sequencer discretization threshold",
docstring="Sets/gets sequencer discretization threshold for "
"discretizing the phase rotation result. "
"Discretization is done by comparing the threshold "
"to the rotated integration result of path 0. "
"This comparison is applied before normalization "
"(i.e. division) of the rotated value with the "
"integration length and therefore the threshold "
"needs to be compensated (i.e. multiplied) with "
"this length for the discretization to function "
"properly.",
unit="",
vals=vals.Numbers(-1.0 * (2 ** 24 - 4), 1.0 * (2 ** 24 - 4)),
set_parser=float,
get_parser=float,
set_cmd=partial(
self._set_sequencer_config_val,
"discr_threshold"
),
get_cmd=partial(
self._get_sequencer_config_val,
"discr_threshold"
),
)
# ------------------------------------------------------------------------
@property
def seq_idx(self) -> int:
"""
Get sequencer index.
Parameters
----------
Returns
----------
int
Sequencer index
Raises
----------
"""
return self._seq_idx
# ------------------------------------------------------------------------
@staticmethod
def _get_required_parent_attr_names() -> List:
"""
Return list of parent attribute names that are required for the QCoDeS
parameters to function, so that the can be registered to this object
using the _register method.
Parameters
----------
Returns
----------
List
List of parent attribute names to register.
Raises
----------
"""
# Sequencer attributes
attr_names = []
for operation in ["set", "get"]:
attr_names.append("_{}_sequencer_channel_map".format(operation))
attr_names.append("_{}_sequencer_config".format(operation))
attr_names.append("_{}_sequencer_config_val".format(operation))
attr_names.append("_{}_sequencer_config_rotation_matrix".format(operation))
attr_names.append("_set_sequencer_program")
attr_names.append("_set_sequence")
attr_names.append("arm_sequencer")
attr_names.append("start_sequencer")
attr_names.append("stop_sequencer")
attr_names.append("get_sequencer_state")
# Waveform, weight and acquisition attributes
for component in ["waveform", "weight", "acquisition"]:
attr_names.append("_add_{}s".format(component))
attr_names.append("_delete_{}".format(component))
attr_names.append("get_{}s".format(component))
attr_names.append("store_scope_acquisition")
attr_names.append("_get_acq_acquisition_data")
attr_names.append("delete_acquisition_data")
attr_names.append("get_acquisition_state")
return attr_names
# ------------------------------------------------------------------------
def _register(self, attr_name: str) -> None:
"""
Register parent attribute to this sequencer using functools.partial
to pre-select the sequencer index. If the attribute does not exist in
the parent class, a method that raises a `NotImplementedError`
exception is registered instead. The docstring of the parent attribute
is also copied to the registered attribute.
Parameters
----------
attr_name : str
Attribute name of parent to register.
Returns
----------
Raises
----------
"""
if hasattr(self.parent, attr_name):
parent_attr = getattr(self.parent, attr_name)
partial_func = partial(parent_attr, self.seq_idx)
partial_func.__doc__ = (
"Important:\n" +
"This method calls {0} using functools.partial to set the " +
"sequencer index. The following docstring is of {1}.{0}:\n\n"
).format(attr_name, type(self.parent).__name__)
partial_func.__doc__ += parent_attr.__doc__
setattr(self, attr_name, partial_func)
else:
def raise_not_implemented_error(*args, **kwargs) -> None:
raise NotImplementedError(
'{} does not have "{}" attribute.'.format(self.parent.name, attr_name)
)
setattr(self, attr_name, raise_not_implemented_error)
# ------------------------------------------------------------------------
def _invalidate_qcodes_parameter_cache(self) -> None:
"""
Marks the cache of all QCoDeS parameters on this sequencer as invalid.
Parameters
----------
Returns
----------
Raises
----------
"""
for param in self.parameters.values():
param.cache.invalidate()