Source code for qiskit_metal.qlibrary.qubits.transmon_pocket_6

# -*- coding: utf-8 -*-

# This code is part of Qiskit.
#
# (C) Copyright IBM 2017, 2021.
#
# This code is licensed under the Apache License, Version 2.0. You may
# obtain a copy of this license in the LICENSE.txt file in the root directory
# of this source tree or at http://www.apache.org/licenses/LICENSE-2.0.
#
# Any modifications or derivative works of this code must retain this
# copyright notice, and modified files need to carry a notice indicating
# that they have been altered from the originals.
"""Transmon Pocket 6.

.. code-block::
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"""

import numpy as np
from qiskit_metal import draw, Dict
from qiskit_metal.qlibrary.core import BaseQubit


[docs] class TransmonPocket6(BaseQubit): """Transmon pocket with 6 connection pads. Inherits `BaseQubit` class Description: Create a standard pocket transmon qubit for a ground plane. Can have variable number of connection pads, up to 6. Default Options: Convention: Values (unless noted) are strings with units included, (e.g., '30um') Pocket: * pad_gap - the distance between the two charge islands, which is also the resulting 'length' of the pseudo junction * inductor_width - width of the pseudo junction between the two charge islands (if in doubt, make the same as pad_gap). Really just for simulating in HFSS / other EM software * pad_width - the width (x-axis) of the charge island pads * pad_height - the size (y-axis) of the charge island pads * pocket_width - size of the pocket (cut out in ground) along x-axis * pocket_height - size of the pocket (cut out in ground) along y-axis Connector lines: * pad_gap - space between the connector pad and the charge island it is nearest to * pad_width - width (x-axis) of the connector pad * pad_height - height (y-axis) of the connector pad * pad_cpw_shift - shift the connector pad cpw line by this much away from qubit * pad_cpw_extent - how long should the pad be - edge that is parallel to pocket * cpw_width - center trace width of the CPW line * cpw_gap - dielectric gap width of the CPW line * cpw_extend - depth the connector line extends into ground (past the pocket edge) * pocket_extent - How deep into the pocket should we penetrate with the cpw connector (into the ground plane) * pocket_rise - How far up or down relative to the center of the transmon should we elevate the cpw connection point on the ground plane * loc_W / H - which 'quadrant' of the pocket the connector is set to, +/- 1 (check if diagram is correct) Sketch: Below is a sketch of the qubit :: +1 0 +1 _________________________________ -1 |______ ____ _|_ __________| +1 Y | |____| |___| |____| | ^ | __________________ | | | | island | | |-----> X | |__________________| | | | | | pocket x | | _________|________ | | | | | | |__________________| | | ______ | |_______|______| | -1 |________________________________| +1 -1 -1 .. image:: transmon_pocket_6.png .. meta:: Transmon Pocket 6 """ # Default drawing options default_options = Dict( pad_gap='30um', inductor_width='20um', pad_width='455um', pad_height='90um', pocket_width='650um', pocket_height='650um', # 90 has dipole aligned along the +X axis, # while 0 has dipole aligned along the +Y axis _default_connection_pads=Dict( pad_gap='15um', pad_width='125um', pad_height='30um', pad_cpw_shift='0um', pad_cpw_extent='25um', cpw_width='10um', cpw_gap='6um', # : cpw_extend: how far into the ground to extend the CPW line from the coupling pads cpw_extend='100um', pocket_extent='5um', pocket_rise='0um', loc_W='+1', # width location only +-1 or 0, loc_H='+1', # height location only +-1 or 0 )) """Default drawing options""" component_metadata = Dict(short_name='Pocket', _qgeometry_table_path='True', _qgeometry_table_poly='True', _qgeometry_table_junction='True') """Component metadata""" TOOLTIP = """Transmon pocket with 6 connection pads."""
[docs] def make(self): """Define the way the options are turned into QGeometry. The make function implements the logic that creates the geoemtry (poly, path, etc.) from the qcomponent.options dictionary of parameters, and the adds them to the design, using qcomponent.add_qgeometry(...), adding in extra needed information, such as layer, subtract, etc. """ self.make_pocket() self.make_connection_pads()
[docs] def make_pocket(self): """Makes standard transmon in a pocket.""" # self.p allows us to directly access parsed values (string -> numbers) form the user option p = self.p # since we will reuse these options, parse them once and define them as variables pad_width = p.pad_width pad_height = p.pad_height pad_gap = p.pad_gap # make the pads as rectangles (shapely polygons) pad = draw.rectangle(pad_width, pad_height) pad_top = draw.translate(pad, 0, +(pad_height + pad_gap) / 2.) pad_bot = draw.translate(pad, 0, -(pad_height + pad_gap) / 2.) rect_jj = draw.LineString([(0, -pad_gap / 2), (0, +pad_gap / 2)]) # the draw.rectangle representing the josephson junction # rect_jj = draw.rectangle(p.inductor_width, pad_gap) rect_pk = draw.rectangle(p.pocket_width, p.pocket_height) # Rotate and translate all qgeometry as needed. # Done with utility functions in Metal 'draw_utility' for easy rotation/translation # NOTE: Should modify so rotate/translate accepts qgeometry, would allow for # smoother implementation. polys = [rect_jj, pad_top, pad_bot, rect_pk] polys = draw.rotate(polys, p.orientation, origin=(0, 0)) polys = draw.translate(polys, p.pos_x, p.pos_y) [rect_jj, pad_top, pad_bot, rect_pk] = polys # Use the geometry to create Metal qgeometry self.add_qgeometry('poly', dict(pad_top=pad_top, pad_bot=pad_bot)) self.add_qgeometry('poly', dict(rect_pk=rect_pk), subtract=True) # self.add_qgeometry('poly', dict( # rect_jj=rect_jj), helper=True) self.add_qgeometry('junction', dict(rect_jj=rect_jj), width=p.inductor_width)
[docs] def make_connection_pads(self): """Makes standard transmon in a pocket.""" for name in self.options.connection_pads: self.make_connection_pad(name)
[docs] def make_connection_pad(self, name: str): """Makes n individual connector. Args: name (str) : Name of the connector """ # self.p allows us to directly access parsed values (string -> numbers) form the user option p = self.p pc = self.p.connection_pads[name] # parser on connector options # define commonly used variables once cpw_width = pc.cpw_width cpw_extend = pc.cpw_extend pad_width = pc.pad_width pad_height = pc.pad_height pad_cpw_shift = pc.pad_cpw_shift pocket_rise = pc.pocket_rise pocket_extent = pc.pocket_extent loc_W = float(pc.loc_W) loc_W, loc_H = float(pc.loc_W), float(pc.loc_H) if float(loc_W) not in [-1., +1., 0] or float(loc_H) not in [-1., +1.]: self.logger.info( 'Warning: Did you mean to define a transmon qubit with loc_W and' ' loc_H that are not +1, -1, or 0? Are you sure you want to do this?' ) # Define the geometry # Connector pad if float(loc_W) != 0: connector_pad = draw.rectangle(pad_width, pad_height, -pad_width / 2, pad_height / 2) # Connector CPW wire connector_wire_path = draw.wkt.loads(f"""LINESTRING (\ 0 {pad_cpw_shift+cpw_width/2}, \ {pc.pad_cpw_extent} {pad_cpw_shift+cpw_width/2}, \ {(p.pocket_width-p.pad_width)/2-pocket_extent} {pad_cpw_shift+cpw_width/2+pocket_rise}, \ {(p.pocket_width-p.pad_width)/2+cpw_extend} {pad_cpw_shift+cpw_width/2+pocket_rise}\ )""") else: connector_pad = draw.rectangle(pad_width, pad_height, 0, pad_height / 2) connector_wire_path = draw.LineString( [[0, pad_height], [ 0, (p.pocket_width / 2 - p.pad_height - p.pad_gap / 2 - pc.pad_gap) + cpw_extend ]]) # Position the connector, rotate and translate objects = [connector_pad, connector_wire_path] if loc_W == 0: loc_Woff = 1 else: loc_Woff = loc_W objects = draw.scale(objects, loc_Woff, loc_H, origin=(0, 0)) objects = draw.translate( objects, loc_W * (p.pad_width) / 2., loc_H * (p.pad_height + p.pad_gap / 2 + pc.pad_gap)) objects = draw.rotate_position(objects, p.orientation, [p.pos_x, p.pos_y]) [connector_pad, connector_wire_path] = objects self.add_qgeometry('poly', {f'{name}_connector_pad': connector_pad}) self.add_qgeometry('path', {f'{name}_wire': connector_wire_path}, width=cpw_width) self.add_qgeometry('path', {f'{name}_wire_sub': connector_wire_path}, width=cpw_width + 2 * pc.cpw_gap, subtract=True) ############################################################ # add pins points = np.array(connector_wire_path.coords) self.add_pin(name, points=points[-2:], width=cpw_width, input_as_norm=True)