surface_sim.layouts.rot_surface_stability_rectangle#
- rot_surface_stability_rectangle(stab_type, width, height, observable='O0', init_point=(1, 1), init_data_qubit_id=1, init_zanc_qubit_id=1, init_xanc_qubit_id=1, init_ind=0, interaction_order={'x_type': ['north_west', 'south_west', 'north_east', 'south_east'], 'z_type': ['north_west', 'north_east', 'south_west', 'south_east']})[source]#
Generates a rotated surface layout for stability experiments.
- Parameters:
- stab_type
Type of the stabilizer that lead to the identity when multiplying all stabilizers of that type. It must be
"x_type"or"z_type".- width
Width of the rotated_surface code layout in terms of the number of data qubit along the horizontal dimension.
- height
Heigh of the rotated_surface code layout in terms of the number of data qubit along the vertical dimension.
- observable
Label for the observable, by default
"L0".- init_point
Coordinates for the bottom left (i.e. southest west) data qubit. By default
(1, 1).- init_data_qubit_id
Index for the bottom left (i.e. southest west) data qubit. By default
1, so the label is"D1".- init_zanc_qubit_id
Index for the bottom left (i.e. southest west) Z-type ancilla qubit. By default
1, so the label is"Z1".- init_xanc_qubit_id
Index for the bottom left (i.e. southest west) X-type ancilla qubit. By default
1, so the label is"X1".- init_ind
Minimum index that is going to be associated to a qubit.
- interaction_order
Dictionary specifying the interaction order for the
x_typeandz_typestabilizers. The possible interaction directions are:"north_east","north_west","south_east", and"south_west".
- Returns:
- Layout
The layout.