CVaRMeasurement¶
- class CVaRMeasurement(*args, **kwargs)[fuente]¶
Bases:
OperatorStateFn
- Deprecated: A specialized measurement class to compute CVaR expectation values.
See https://arxiv.org/pdf/1907.04769.pdf for further details.
Used in
CVaRExpectation
, see there for more details.Obsoleto desde la versión 0.24.0: The class
qiskit.opflow.state_fns.cvar_measurement.CVaRMeasurement
is deprecated as of qiskit-terra 0.24.0. It will be removed no earlier than 3 months after the release date. For code migration guidelines, visit https://qisk.it/opflow_migration.- Parámetros
primitive – The
OperatorBase
which defines the diagonal operator measurement.coeff – A coefficient by which to multiply the state function
alpha – A real-valued parameter between 0 and 1 which specifies the fraction of observed samples to include when computing the objective value. alpha = 1 corresponds to a standard observable expectation value. alpha = 0 corresponds to only using the single sample with the lowest energy. alpha = 0.5 corresponds to ranking each observation by lowest energy and using the best
- Muestra
ValueError – TODO remove that this raises an error
ValueError – If alpha is not in [0, 1].
OpflowError – If the primitive is not diagonal.
Methods Defined Here
Return Operator addition of self and other, overloaded by
+
.The adjoint of a CVaRMeasurement is not defined.
Given the energies of each sampled measurement outcome (H_i) as well as the sampling probability of each measurement outcome (p_i, we can compute the CVaR.
Given the energies of each sampled measurement outcome (H_i) as well as the sampling probability of each measurement outcome (p_i, we can compute the CVaR as H_j + 1/α*(sum_i<j p_i*(H_i - H_j)).
Given the energies of each sampled measurement outcome (H_i) as well as the sampling probability of each measurement outcome (p_i, we can compute the variance of the CVaR estimator as H_j^2 + 1/α * (sum_i<j p_i*(H_i^2 - H_j^2)).
In order to compute the CVaR of an observable expectation, we require the energies of each sampled measurement outcome as well as the sampling probability of each measurement outcome.
Returns the scalar multiplication of the Operator, overloaded by
*
, including support for Terra'sParameters
, which can be bound to values later (viabind_parameters
).Sample the state function as a normalized probability distribution.
Return tensor product between self and other, overloaded by
^
.Not defined.
Not defined.
Not defined.
Not defined.
Apply the convert_fn to the internal primitive if the primitive is an Operator (as in the case of
OperatorStateFn
).Attributes
- INDENTATION = ' '¶
- alpha¶
- A real-valued parameter between 0 and 1 which specifies the
fraction of observed samples to include when computing the objective value. alpha = 1 corresponds to a standard observable expectation value. alpha = 0 corresponds to only using the single sample with the lowest energy. alpha = 0.5 corresponds to ranking each observation by lowest energy and using the best half.
- Devuelve
The parameter alpha which was given at initialization
- coeff¶
A coefficient by which the state function is multiplied.
- instance_id¶
Return the unique instance id.
- is_measurement¶
Whether the StateFn object is a measurement Operator.
- num_qubits¶
- parameters¶
- primitive: OperatorBase¶
The primitive which defines the behavior of the underlying State function.
- settings¶
Return settings.