ParityMapper#
- class ParityMapper(num_particles=None)[fuente]#
Bases:
FermionicMapper
The Parity fermion-to-qubit mapping.
When using this mapper,
num_particles
can optionally be used to apply an additional step of reduction after the mapping to pauli operators. The two-qubit reduction tapers two qubits (middle and last qubit) because the spin orbitals are ordered in two spin sectors (block spin order). Based on the provided number of particles this allows the automatic selection of the correct symmetry sector.Advertencia
Combing this additional two-qubit reduction with the
InterleavedQubitMapper
will not yield the intended result. While the code will work, the hard-coded indices of the qubits which are removed will alter the Hamiltonian in a non-physical way, resulting in a physically incorrect answer. In such a case you should rely on theTaperedQubitMapper
, instead.- Parámetros:
num_particles (tuple[int, int] | None) – the number of particles. For more details refer to the class docstring.
Attributes
- num_particles#
Get number of particles.
Methods
- map(second_q_ops, *, register_length=None)#
Maps a second quantized operator or a list, dict of second quantized operators based on the current mapper.
- Parámetros:
second_q_ops (FermionicOp | List[FermionicOp | None] | Dict[str, FermionicOp]) – A second quantized operator, or list thereof.
register_length (int | None) – when provided, this will be used to overwrite the
register_length
attribute of theSparseLabelOp
being mapped. This is possible because theregister_length
is considered a lower bound in aSparseLabelOp
.
- Devuelve:
A qubit operator in the form of a
SparsePauliOp
, or list (resp. dict) thereof if a list (resp. dict) of second quantized operators was supplied.- Tipo del valor devuelto:
SparsePauliOp | List[SparsePauliOp | None] | Dict[str, SparsePauliOp]
- classmethod mode_based_mapping(second_q_op, register_length=None)#
Utility method to map a
SparseLabelOp
to a qubit operator using a pauli table.- Parámetros:
second_q_op (SparseLabelOp) – the SparseLabelOp to be mapped.
register_length (int | None) – when provided, this will be used to overwrite the
register_length
attribute of the operator being mapped. This is possible because theregister_length
is considered a lower bound.
- Devuelve:
The qubit operator corresponding to the problem-Hamiltonian in the qubit space.
- Muestra:
QiskitNatureError – If number length of pauli table does not match the number of operator modes, or if the operator has unexpected label content
- Tipo del valor devuelto:
- classmethod pauli_table(register_length)[fuente]#
Generates a Pauli-lookup table mapping from modes to pauli pairs.
The generated table is processed by
QubitMapper.sparse_pauli_operators()
.- Parámetros:
register_length (int) – the register length for which to generate the table.
- Devuelve:
A list of tuples in which the first and second Pauli operator the real and imaginary Pauli strings, respectively.
- Tipo del valor devuelto:
list[tuple[qiskit.quantum_info.operators.symplectic.pauli.Pauli, qiskit.quantum_info.operators.symplectic.pauli.Pauli]]
- classmethod sparse_pauli_operators(register_length)#
Generates the cached
SparsePauliOp
terms.This uses
QubitMapper.pauli_table()
to construct a list of operators used to translate the second-quantization symbols into qubit operators.- Parámetros:
register_length (int) – the register length for which to generate the operators.
- Devuelve:
Two lists stored in a tuple, consisting of the creation and annihilation operators, applied on the individual modes.
- Tipo del valor devuelto:
tuple[list[qiskit.quantum_info.operators.symplectic.sparse_pauli_op.SparsePauliOp], list[qiskit.quantum_info.operators.symplectic.sparse_pauli_op.SparsePauliOp]]