BravyiKitaevMapper#
- class BravyiKitaevMapper[source]#
Bases:
FermionicMapper
The Bravyi-Kitaev fermion-to-qubit mapping.
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.
- Parameters:
second_q_ops (FermionicOp | ListOrDictType[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
.
- Returns:
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.- Return type:
SparsePauliOp | ListOrDictType[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.- Parameters:
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.
- Returns:
The qubit operator corresponding to the problem-Hamiltonian in the qubit space.
- Raises:
QiskitNatureError – If number length of pauli table does not match the number of operator modes, or if the operator has unexpected label content
- Return type:
SparsePauliOp
- classmethod pauli_table(register_length)[source]#
Generates a Pauli-lookup table mapping from modes to pauli pairs.
The generated table is processed by
QubitMapper.sparse_pauli_operators()
.
- 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.