qml.estimator.ops.CCZ

class CCZ(wires=None)

Bases: ResourceOperator

Resource class for the CCZ gate.

Parameters:

wires (Sequence[int] | None) – the wire the operation acts on

Resources:

The resources are derived from the following identity:

\[\hat{Z} = \hat{H} \cdot \hat{X} \cdot \hat{H}.\]

By replacing the X gate with a Toffoli we obtain the controlled decomposition. Specifically, the resources are defined as a Toffoli gate conjugated by a pair of Hadamard gates.

See also

The corresponding PennyLane operation CCZ.

Example

The resources for this operation are computed using:

>>> qml.estimator.CCZ.resource_decomp()
[(1 x Toffoli), (2 x Hadamard)]

Attributes

num_wires
resource_params	Returns a dictionary containing the minimal information needed to compute the resources.

num_wires = 3

resource_params

Returns a dictionary containing the minimal information needed to compute the resources.

Returns:

Empty dictionary. The resources of this operation don’t depend on any additional parameters.

Return type:

dict

Methods

adjoint_resource_decomp([target_resource_params])	Returns a list representing the resources for the adjoint of the operator.
controlled_resource_decomp(num_ctrl_wires, ...)	Returns a list representing the resources for a controlled version of the operator.
pow_resource_decomp(pow_z[, ...])	Returns a list representing the resources for an operator raised to a power.
resource_decomp()	Returns a list representing the resources of the operator.
resource_rep()	Returns a compressed representation containing only the parameters of the operator that are needed to compute the resources.

classmethod adjoint_resource_decomp(target_resource_params=None)

Returns a list representing the resources for the adjoint of the operator.

Parameters:

target_resource_params (dict | None) – A dictionary containing the resource parameters of the target operator.

Resources:

This operation is self-adjoint, so the resources of the adjoint operation results are same as the originial operation.

Returns:

A list of GateCount objects, where each object represents a specific quantum gate and the number of times it appears in the decomposition.

Return type:

list[GateCount]

classmethod controlled_resource_decomp(num_ctrl_wires, num_zero_ctrl, target_resource_params=None)

Returns a list representing the resources for a controlled version of the operator.

Parameters:

• num_ctrl_wires (int) – the number of qubits the operation is controlled on

• num_zero_ctrl (int) – the number of control qubits, that are controlled when in the \(|0\rangle\) state

• target_resource_params (dict | None) – A dictionary containing the resource parameters of the target operator.

Resources:

The resources are expressed using the symbolic Controlled. The resources are computed according to the controlled_resource_decomp() of the base Z class.

Returns:

A list of GateCount objects, where each object represents a specific quantum gate and the number of times it appears in the decomposition.

Return type:

list[GateCount]

classmethod pow_resource_decomp(pow_z, target_resource_params=None)

Returns a list representing the resources for an operator raised to a power.

Parameters:

• pow_z (int) – the power that the operator is being raised to

• target_resource_params (dict | None) – A dictionary containing the resource parameters of the target operator.

Resources:

This operation is self-inverse, thus when raised to even integer powers acts like the identity operator and raised to odd powers it produces itself.

Returns:

A list of GateCount objects, where each object represents a specific quantum gate and the number of times it appears in the decomposition.

Return type:

list[GateCount]

classmethod resource_decomp()

Returns a list representing the resources of the operator.

Resources:

The resources are derived from the following identity:

\[\hat{Z} = \hat{H} \cdot \hat{X} \cdot \hat{H}.\]

By replacing the X gate with a Toffoli we obtain the controlled decomposition. Specifically, the resources are defined as a Toffoli gate conjugated by a pair of Hadamard gates.

Returns:

A list of GateCount objects, where each object represents a specific quantum gate and the number of times it appears in the decomposition.

Return type:

list[GateCount]

classmethod resource_rep()

Returns a compressed representation containing only the parameters of the operator that are needed to compute the resources.

Returns:

A compressed representation of the operator.

Return type:

CompressedResourceOp

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