mock_setup#

Code to set up a mock setup for use in tutorials and testing.

Module Contents#

Functions#

set_up_mock_transmon_setup(→ Dict)

Set up a system containing 5 transmon qubits connected in a star shape.

set_standard_params_transmon(mock_setup)

Set somewhat standard parameters to the mock setup generated above.

set_up_mock_basic_nv_setup(→ Dict)

Set up a system containing 1 electronic qubit in an NV center.

set_standard_params_basic_nv(→ None)

Set somewhat standard parameters to the mock setup generated above.

set_up_mock_transmon_setup() Dict[source]#

Set up a system containing 5 transmon qubits connected in a star shape.

q0    q1
  \  /
   q2
  /          q3    q4

Returns a dictionary containing the instruments that are instantiated as part of this setup. The keys corresponds to the names of the instruments.

set_standard_params_transmon(mock_setup)[source]#

Set somewhat standard parameters to the mock setup generated above.

These parameters serve so that the quantum-device is capable of generating a configuration that can be used for compiling schedules.

In normal use, unknown parameters are set as ‘nan’ values, forcing the user to set these. However for testing purposes it can be useful to set some semi-random values. The values here are chosen to reflect typical values as used in practical experiments.

set_up_mock_basic_nv_setup() Dict[source]#

Set up a system containing 1 electronic qubit in an NV center.

After usage, close all instruments.

Returns:

All instruments created. Containing a “quantum_device”, electronic qubit “qe0”, “meas_ctrl” and “instrument_coordinator”.

set_standard_params_basic_nv(mock_nv_device: Dict[str, Any]) None[source]#

Set somewhat standard parameters to the mock setup generated above.

These parameters serve so that the quantum-device is capable of generating a configuration that can be used for compiling schedules.

In normal use, unknown parameters are set as ‘nan’ values, forcing the user to set these. However for testing purposes it can be useful to set some semi-random values. The values here are chosen to reflect typical values as used in practical experiments. All amplitudes for pulses are set to 1e-3.