示例#1
0
central_line_y = sample.chip_geometry.sample_vertical_size / 2
chip_edge_ground = elements.ChipEdgeGround(sample.chip_geometry,
                                           sample.layer_configuration,
                                           sample.pads)
chip_edge_ground.render_direct = True
sample.add(chip_edge_ground)

# 1. Create contact pads:
pads_left = []
pads_right = []
for pad_side_id in range(1):
    pad = elements.Pad(
        'pad-left-' + str(pad_side_id),
        (pad_offset, sample.chip_geometry.sample_vertical_size / 2),
        np.pi,
        tl_core,
        tl_gap,
        tl_ground,
        layer_configuration=sample.layer_configuration,
        chip_geometry=sample.chip_geometry,
        **elements.default_pad_geometry())
    pads_left.append(pad)
    sample.add(pad)
    pad = elements.Pad(
        'pad-right-' + str(pad_side_id),
        (sample.chip_geometry.sample_horizontal_size - pad_offset,
         sample.chip_geometry.sample_vertical_size / 2),
        0,
        tl_core,
        tl_gap,
        tl_ground,
        layer_configuration=sample.layer_configuration,
示例#2
0
    for pad_side_id in range(nu_pads_side):
        position = (-sample.chip_geometry.sample_horizontal_size / 2 +
                    pad_offset, sample.chip_geometry.sample_vertical_size /
                    (nu_pads_side + 1) *
                    (-nu_pads_side / 2 + pad_side_id + 1 / 2))
        position = -((-1j)**side_id) * (position[0] + 1j * position[1])
        position = (np.real(position) +
                    sample.chip_geometry.sample_horizontal_size / 2,
                    np.imag(position) +
                    sample.chip_geometry.sample_vertical_size / 2)

        pad = elements.Pad('pad-{}-side-{}'.format(pad_side_id, side_id),
                           position,
                           np.angle(((-1j)**side_id)),
                           tl_core,
                           tl_gap,
                           tl_ground,
                           layer_configuration=sample.layer_configuration,
                           chip_geometry=sample.chip_geometry,
                           **pad_geometry)
        side_list.append(pad)
        sample.add(pad)

# qubit params

coupler_s = 26
flux_w = 10
flux_s = 6
flux_g = 20

squid_coupler_horizontal = {