quri_parts.openfermion.utils package

add_exp_excitation_gates_trotter_decomposition(circuit, excitation_indices, params, operator_mapper, coef)

Add parametric Pauli rotation gates as a product of the exponentials of the excitations to the given circuit.

Parameters:

• circuit (LinearMappedUnboundParametricQuantumCircuit) –

• excitation_indices (Sequence[Excitation]) –

• params (Sequence[Parameter]) –

• operator_mapper (openfermion.transforms.OpenFermionQubitOperatorMapper) –

• coef (float) –

Return type:

LinearMappedUnboundParametricQuantumCircuit

create_anti_hermitian_sd_excitation_operator(excitation_indices, operator_mapper)

Create an anti-hermitian Operator according to the assigned index.

• If there are 2 excitation indices (i, a), it creates the Operator for \(c_a^{\dagger} c_i - c_i^{\dagger} c_a\).

• If there are 4 excitation indices (i, j, b, a), it creates the Operator for \(c_a^{\dagger} c_b^{\dagger} c_j c_i - c_i^{\dagger}c_j^{\dagger} c_b c_a\).

Parameters:

• excitation_indices (chem.utils.excitations.SingleExcitation | chem.utils.excitations.DoubleExcitation) –

• operator_mapper (openfermion.transforms.OpenFermionQubitOperatorMapper) –

Return type:

Operator

Submodules

• quri_parts.openfermion.utils.add_exp_excitation_gates_trotter_decomposition module
  • add_exp_excitation_gates_trotter_decomposition()
  • create_anti_hermitian_sd_excitation_operator()
• quri_parts.openfermion.utils.post_selection_filters module
  • create_jw_electron_number_post_selection_filter_fn()
  • create_bk_electron_number_post_selection_filter_fn()
  • create_scbk_electron_number_post_selection_filter_fn()