cirq.ops.MutableDensePauliString

Parent class for DensePauliString and MutableDensePauliString.

Inherits From: BaseDensePauliString, Gate

pauli_mask A specification of the Pauli gates to use. This argument can be a string like "IXYYZ", or a numeric list like [0, 1, 3, 2] with I=0, X=1, Y=2, Z=3=X|Y.

The internal representation is a 1-dimensional uint8 numpy array containing numeric values. If such a numpy array is given, and the pauli string is mutable, the argument will be used directly instead of being copied.

coefficient A complex number. Usually +1, -1, 1j, or -1j but other values are supported.

Methods

controlled

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Returns a controlled version of this gate. If no arguments are specified, defaults to a single qubit control.

num_controls: Total number of control qubits. control_values: For which control qubit values to apply the sub gate. A sequence of length num_controls where each entry is an integer (or set of integers) corresponding to the qubit value (or set of possible values) where that control is enabled. When all controls are enabled, the sub gate is applied. If unspecified, control values default to 1. control_qid_shape: The qid shape of the controls. A tuple of the expected dimension of each control qid. Defaults to (2,) * num_controls. Specify this argument when using qudits.

copy

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Returns a copy with possibly modified contents.

Args
coefficient The new coefficient value. If not specified, defaults to the current coefficient value.
pauli_mask The new pauli_mask value. If not specified, defaults to the current pauli mask value.

Returns
A copied instance.

eye

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Creates a dense pauli string containing only identity gates.

Args
length The length of the dense pauli string.

frozen

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A cirq.DensePauliString with the same contents.

inline_gaussian_elimination

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mutable_copy

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A cirq.MutableDensePauliString with the same contents.

num_qubits

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The number of qubits this gate acts on.

on

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Returns an application of this gate to the given qubits.

Args
*qubits The collection of qubits to potentially apply the gate to.

on_each

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Returns a list of operations applying the gate to all targets.

Args
*targets The qubits to apply this gate to. For single-qubit gates this can be provided as varargs or a combination of nested iterables. For multi-qubit gates this must be provided as an Iterable[Sequence[Qid]], where each sequence has num_qubits qubits.

Returns
Operations applying this gate to the target qubits.

Raises
ValueError If targets are not instances of Qid or Iterable[Qid]. If the gate qubit number is incompatible.

one_hot

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Creates a dense pauli string with only one non-identity Pauli.

Args
index The index of the Pauli that is not an identity.
pauli The pauli gate to put at the hot index. Can be set to either a string ('X', 'Y', 'Z', 'I'), a cirq gate (cirq.X, cirq.Y, cirq.Z, or cirq.I), or an integer (0=I, 1=X, 2=Y, 3=Z).

sparse

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A cirq.PauliString version of this dense pauli string.

Args
qubits The qubits to apply the Paulis to. Defaults to cirq.LineQubit.range(len(self)).

Returns
A cirq.PauliString with the non-identity operations from this dense pauli string applied to appropriate qubits.

tensor_product

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Concatenates dense pauli strings and multiplies their coefficients.

Args
other The dense pauli string to place after the end of this one.

Returns
A dense pauli string with the concatenation of the paulis from the two input pauli strings, and the product of their coefficients.

validate_args

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Checks if this gate can be applied to the given qubits.

By default checks that:

  • inputs are of type Qid
  • len(qubits) == num_qubits()
  • qubit_i.dimension == qid_shape[i] for all qubits

Child classes can override. The child implementation should call super().validate_args(qubits) then do custom checks.

Args
qubits The sequence of qubits to potentially apply the gate to.

Throws:

  • ValueError: The gate can't be applied to the qubits.

with_probability

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wrap_in_linear_combination

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__abs__

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__add__

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__call__

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Call self as a function.

__eq__

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__getitem__

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__len__

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__mul__

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__ne__

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__neg__

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__pos__

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__pow__

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__rmul__

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__sub__

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__truediv__

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I_VAL 0
X_VAL 1
Y_VAL 2
Z_VAL 3