TunableCoupler01.add_pin

TunableCoupler01.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

..........^
         .|
         .*
         .|
..........|