TunableCoupler02¶
- class TunableCoupler02(design, name: str | None = None, options: Dict | None = None, options_connection_pads: dict | None = None, make: bool = True, **kwargs)[source]¶
One of the tunable couplers
- BaseQubit Default Options:
connection_pads: empty Dict – Currently not used, connection count is static. (WIP)
- Default Options:
pocket_width: ‘3mm’ – The width (x-axis) of the transmon pocket
pocket_height: ‘2m’ – The height (y-axis) of the transmon pocket
pos_x: ‘0mm’ – the x-coordinate location of the JJ in the middle of the qubit
pos_y: ‘0mm’ – the y-coordinate location of the JJ in the middle of the qubit
orientation: ‘0’ – the angle of rotation
pad_radius: ‘0.3mm’ – the radius of the two circular pads on either side of the JJ
bus_width: ‘0.1mm’ – the width of the CPW resonator in the coupler
bus_inner_length: ‘0.5mm’ – length of the CPW between the JJ and the circular pad
bus_outer_length: ‘0.5mm’ – length of the CPW between the circular pad and the in/out pin
bus_JJ_height: ‘0.5mm’ – vertical distance between the main cpw line and the offset JJ
JJ_width: ‘0.1mm’ – the width of the JJ
JJ_length: ‘0.4mm’ – the length of the JJ
fbl_width: ‘0.1mm’ – the width of the flux bias line drawn near the JJ
fbl_length: ‘0.5mm’ – the length of the flux bias line drawn near the JJ
fbl_offset: ‘0.1mm’ – the lateral offset between the flux bias line and the JJ
layer: ‘1’ – the default design layer
- Parameters:
design (QDesign) – The parent design.
name (str) – Name of the component.
options (dict) – User options that will override the defaults. Defaults to None.
options_connection_pads (dict) – User options for connection pads on qubit
make (bool) – True if the make function should be called at the end of the init. Options be used in the make function to create the geometry. Defaults to None.
Attributes
- TOOLTIP = 'One of the tunable couplers'¶
- class_name¶
the full module name with the class name. e.g., qiskit_metal.qlibrary.qubits.TransmonPocket.
- Returns:
Class name
- Return type:
str
- Type:
Return the full name of the class
- component_metadata = {'_qgeometry_table_junction': 'True', '_qgeometry_table_path': 'True', '_qgeometry_table_poly': 'True', 'short_name': 'Pocket'}¶
Component metadata
- default_options = {'JJ_length': '0.4mm', 'JJ_width': '0.1mm', 'bus_JJ_height': '0.5mm', 'bus_inner_length': '0.5mm', 'bus_outer_length': '0.5mm', 'bus_width': '0.1mm', 'fbl_length': '0.5mm', 'fbl_offset': '0.1mm', 'fbl_width': '0.1mm', 'layer': '1', 'orientation': '0', 'pad_radius': '0.3mm', 'pocket_height': '2mm', 'pocket_width': '3mm', 'pos_x': '0mm', 'pos_y': '0mm'}¶
Default options.
- id¶
The unique id of component within a design.
- Returns:
Component id
- Return type:
int
- logger¶
The Qiskit Metal Logger.
- Returns:
Logger
- Return type:
logging.Logger
- name¶
Name of the component.
- options = {}¶
A dictionary of the component-designer-defined options. These options are used in the make function to create the QGeometry and QPins. All options should have string keys and preferrable string values.
- pin_names¶
The names of the pins.
- Returns:
Set of pin names
- Return type:
set
- qgeometry_types¶
Get a list of the names of the element tables.
- Returns:
Name of element table or type; e.g., ‘poly’ and ‘path’
- Return type:
List[str]
- pins¶
Dictionary of pins. Populated by component designer in make function using add_pin.
- metadata¶
Metadata allows a designer to store extra information or analysis results.
- status¶
Stores the latest status of the component. Values include:
Initialization Successful
,Build Failed
, etc.
Methods
- add_dependency(parent: str, child: str)¶
Add a dependency between one component and another. Calls parent design.
- Parameters:
parent (str) – The component on which the child depends
child (str) – The child cannot live without the parent.
- add_pin(name: str, points: ndarray, width: float, input_as_norm: bool = False, chip: str | None = None, gap: float | None = None)¶
Adds a pin from two points which are normal/tangent to the intended plane of the pin. The normal should ‘point’ in the direction of intended connection. Adds the new pin as a subdictionary to parent component’s pins dictionary.
- Parameters:
name (*) – name of the pin
points (*) – [[x1,y1],[x2,y2]] for the normal/tangent line
width (*) – the width of the intended connection (eg. qubit bus pad arm)
input_as_norm (*) – Indicates if the points are tangent or normal to the pin plane. Defaults to False.. Make True for normal.
parent (*) – The id of the parent component.
chip (*) – the name of the chip the pin is located on. Defaults to None, which is
self.options.chip. (converted to)
gap (*) – the dielectric gap of the pin for the purpose of representing as a port for simulations. Defaults to None which is converted to 0.6 * width.
- Dictionary containing pins information:
points (numpy.ndarray) - two (x,y) points which represent the edge of the pin for another component to attach to (eg. the edge of a CPW TL)
middle (numpy.ndarray) - an (x,y) which represents the middle of the points above, where the pin is represented.
normal (numpy.ndarray) - the normal vector of the pin, pointing in direction of intended connection
tangent (numpy.ndarray) - 90 degree rotation of normal vector
width (float) - the width of the pin
chip (str) - the chip the pin is on
parent_name - the id of the parent component
net_id - net_id of the pin if connected to another pin. Defaults to 0, indicates not connected))
* = pin . = outline of component
—> = the list being passed in as ‘points’ [[x1,y1],[x2,y2]]
normal vector
.......... . --------->* . ..........
tangent vector
..........^ .| .* .| ..........|
- add_qgeometry(kind: str, geometry: dict, subtract: bool = False, helper: bool = False, layer: int | str | None = None, chip: str | None = None, **kwargs)¶
Add QGeometry.
Takes any additional options in options.
- Parameters:
kind (str) – The kind of QGeometry, such as ‘path’, ‘poly’, etc. All geometry in the dictionary should have the same kind, such as Polygon or LineString.
geometry (Dict[BaseGeometry]) – Key-value pairs of name of the geometry you want to add and the value should be a shapely geometry object, such as a Polygon or a LineString.
subtract (bool) – Subtract from the layer. Defaults to False.
helper (bool) – Is this a helper object. If true, subtract must be false Defaults to False.
layer (int, str) – The layer to which the set of QGeometry will belong Defaults to None, which is converted to self.options.chip.
chip (str) – Chip name. Defaults to None, which is converted to
self.options.chip.
kwargs (dict) – Parameters dictionary
- Assumptions:
Assumes all geometry in the geometry argument are homogeneous in kind; i.e., all lines or polys etc.
- connect_components_already_in_design(pin_name_self: str, comp2_id: int, pin2_name: str) int ¶
- WARNING: Do NOT use this method during generation of component instance.
This method is expecting self to be added to design._components dict. More importantly, the unique id of self component needs to be in design._components dict.
- Parameters:
pin_name_self (str) – Name of pin within the component.
comp2_id (int) – Component within design, but not self.
pin2_name (str) – The pin of comp2_id that pin_name_self will connect to.
- Returns:
A unique net_id for the connection.
- Return type:
int
- delete()¶
Delete the QComponent.
Removes QGeometry, QPins, etc. from the design.
- get_pin(name: str) Dict ¶
Interface for components to get pin data.
- Parameters:
name (str) – Name of the desired pin.
- Returns:
Returns the data of the pin, see make_pin() for what those values are.
- Return type:
dict
- classmethod get_template_options(design: QDesign, component_template: Dict = None, logger_: Logger = None, template_key: str = None) Dict ¶
Creates template options for the Metal Component class required for the class to function, based on the design template; i.e., be created, made, and rendered. Provides the blank option structure required.
The options can be extended by plugins, such as renderers.
- Parameters:
design (QDesign) – Design class. Should be the class, not the instance.
component_template (Dict) – Template options to overwrite the class ones (default: None)
logger (logging.Logger) – A logger for errors. Defaults to None.
template_key (str) – The template key identifier. If None, then uses cls._get_unique_class_name(). Defaults to None.
- Returns:
dictionary of default options based on design template.
- Return type:
Dict
- parse_options(options: Dict | None = None) Dict ¶
Parse the options, converting string into interpreted values. Parses units, variables, strings, lists, and dictionaries. Explained by example below.
- Parameters:
options (dict) – If left None, then self.options is used. Defaults to None.
- Returns:
Parsed value
- Return type:
dict
Calls self.design.parse_options.
See self.parse_value for more information.
- parse_value(value: Any | List | Dict | Iterable) Any | List | Dict | Iterable ¶
Parse a string, mappable (dict, Dict), iterable (list, tuple) to account for units conversion, some basic arithmetic, and design variables. This is the main parsing function of Qiskit Metal.
- Parameters:
value (str) – String to parse or
variable_dict (dict) – dict pointer of variables
- Returns:
Parse value
- Return type:
str, float, list, tuple, or ast eval
- Handled Inputs:
- Strings:
- Strings of numbers, numbers with units; e.g., ‘1’, ‘1nm’, ‘1 um’
Converts to int or float. Some basic arithmetic is possible, see below.
- Strings of variables ‘variable1’.
Variable interpretation will use string method isidentifier ‘variable1’.isidentifier()`
- Dictionaries:
Returns ordered Dict with same key-value mappings, where the values have been subjected to parse_value.
- Itterables(list, tuple, …):
Returns same kind and calls itself parse_value on each element.
- Numbers:
Returns the number as is. Int to int, etc.
- Arithemetic:
Some basic arithmetic can be handled as well, such as ‘-2 * 1e5 nm’ will yield float(-0.2) when the default units are set to mm.
- Default units:
User units can be set in the design. The design will set config.DEFAULT.units
Examples
- See the docstring for this module.
>> ?qiskit_metal.toolbox_metal.parsing
- populate_to_track_table_usage() None ¶
Use the element_handler to get a list of all the table names used in QGeometry.
The dict qgeometry_able_usage should get updated by add_qgeometry(). This dict is used to get a summary tables used for this component.
- qgeometry_bounds() Tuple ¶
Fetched the component bound dict_value.
- Returns:
containing (minx, miny, maxx, maxy) bound values for the bounds of the component as a whole.
- Return type:
tuple
- Uses:
design.qgeometry.get_component_bounds
- qgeometry_dict(element_type: str) Dict[str, BaseGeometry] ¶
Returns a dict of element qgeometry (shapely geometry) of the component as a python dict, where the dict keys are the names of the qgeometry and the corresponding values are the shapely geometries.
- Parameters:
element_type (str) – Name of element table or type; e.g., ‘poly’ and ‘path’
- Returns:
Geometry diction or None if an error in the name of the element type (ie. table)
- Return type:
List[BaseGeometry]
- qgeometry_list(element_type: str = 'all') List[BaseGeometry] ¶
Returns a list of element qgeometry (shapely geometry) of the component as a python list of shapely geometries.
- Parameters:
element_type (str) – Name of element table or type; e.g., ‘poly’ and ‘path’. Can also specify all
- Returns:
Geometry list or None if an error in the name of the element type (ie. table)
- Return type:
List[BaseGeometry]
- qgeometry_plot(ax: matplotlib.axes.Axes = None, plot_kw: dict = None) List ¶
Draw all the qgeometry of the component (polys and path etc.)
- Parameters:
ax (matplotlib.axes.Axes) – Matplotlib axis to draw on. Defaults to None. When None, it gets the current axis.
plot_kw (dict) – Parameters dictionary.
- Returns:
The list of qgeometry draw
- Return type:
List
- Example use:
Suppose you had a component called q1:
fig, ax = draw.mpl.figure_spawn() q1.qgeometry_plot(ax)
- qgeometry_table(element_type: str) DataFrame ¶
Returns the entire element table for the component.
- Parameters:
element_type (str) – Name of element table or type; e.g., ‘poly’ and ‘path’
- Returns:
Element table for the component or None if an error in the name of the element type (ie. table)
- Return type:
pd.DataFrame
- rebuild()¶
Builds the QComponent.
This is the main action function of a QComponent, call it qc. It converts the qc.options into QGeometry with all of the required options, such as the geometry points, layer number, materials, etc. needed to render.
The build clears the existing QGeometry and QPins and then calls the qc.make function, which is written by the component developer to implement the logic (using the metal. draw module) to convert the qc.options into the QGeometry.
Build status: The function also sets the build status of the component. It sets to failed when the component is created, and then it sets to good when it is done with no errors. The user can also set other statuses, which can appear if the code fails to reach the final line of the build, where the build status is set to good.
- Raises:
Exception – Component build failure
- to_script(thin: bool = False, is_part_of_chip: bool = False) Tuple ¶
- Parameters:
thin – If true then any key in the QComponent’s options whose value is the same value as the default will not be included in the body
is_part_of_chip – If true, body will not include header code
Returns: Code that if copy-pasted into a .py file would generate an instance of this class with the same properties as the instance calling this function