This operation rotates a qubit about the Y axis by an arbitrary angle.
Declaration Syntax
C# | Visual Basic | Visual C++ |
public class OperationRotateY : GeneralSimulatedQubitOperation, IOperationRotateY, IQubitOperation, IQuantumOperation, ICoveObject
Public Class OperationRotateY _ Inherits GeneralSimulatedQubitOperation _ Implements IOperationRotateY, IQubitOperation, IQuantumOperation, ICoveObject
public ref class OperationRotateY : public GeneralSimulatedQubitOperation, IOperationRotateY, IQubitOperation, IQuantumOperation, ICoveObject
Members
All Members | Constructors | Methods | Fields | ||
Icon | Member | Description |
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OperationRotateY()()() |
Default constructor, construct an instance of the Rotate Y operation. The angle
is 0, so this is effectively an identity operation until it is set.
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OperationRotateY(Int32) |
Overloaded constructor to specify the target at time of construction.
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OperationRotateY(Int32, Double) |
Construct an instance of the Rotate Y operation, which will rotate a qubit about the
Y axis by RotateBy.
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Clone()()() |
Return a clone (deep copy) of the current operation. This operation returned can be modified
without any impact to this object. Unlike quantum registers, quantum operations cannot be
in superposition- hence a clone of them does not violate the no-cloning theorem.
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Combine(IQuantumOperation) |
Combine two same sized operations into one.
(Inherited from GeneralSimulatedOperation.) | |
dAngle |
Current angle of rotation
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Equals(Object) | Determines whether the specified Object is equal to the current Object. (Inherited from Object.) | |
Finalize()()() | Allows an Object to attempt to free resources and perform other cleanup operations before the Object is reclaimed by garbage collection. (Inherited from Object.) | |
GetHashCode()()() | Serves as a hash function for a particular type. GetHashCode()()() is suitable for use in hashing algorithms and data structures like a hash table. (Inherited from Object.) | |
GetOperationAndTargets()()() |
Get a string that shows the operations name and target. An example might
be something like "CNOT: Control = 0, Target = 2".
(Inherited from GeneralSimulatedQubitOperation.) | |
GetOperationComplexMatrix()()() |
Return the object that represents the operation. The result is a deep copy
of the operation matrix.
(Inherited from GeneralSimulatedOperation.) | |
GetOperationMatrix()()() |
Get the matrix object that represents this operation. The ComplexMatrix
returned is a deep copy, so changes the object returned do not effect this object.
(Inherited from GeneralSimulatedOperation.) | |
GetRotateBy()()() |
Get the amount that this operation rotates about the Y axis by.
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GetTargetQubit()()() |
Get the target index of this single qubit operation.
(Inherited from GeneralSimulatedQubitOperation.) | |
GetType()()() | Gets the Type of the current instance. (Inherited from Object.) | |
IsValidOperation()()() |
Checks to see if the operation is a valid quantum operation, that it is unitary.
(Inherited from GeneralSimulatedOperation.) | |
listTargetQubits |
Represents the targets for the various qubits the operation
operates on. Index represents the standard target, value
represents the actual target. Example: In a standard CNot
the first (index 0) qubit is the control and the second (index 1)
is the target. The list will be 2 elements with element 0 representing
the control and element 1 representing the target. If the list is
then {3, 0} this means that the control targets index 3 of the target
register and the target of the operation is index 0 of the target
register.
(Inherited from GeneralSimulatedOperation.) | |
MemberwiseClone()()() | Creates a shallow copy of the current Object. (Inherited from Object.) | |
NumberOfQubitsOperatesOn()()() |
Return the number of qubits that this operation operates on. The number
of qubits it operates on is the highest target qubit. Example: If a Toffolli
operation targets qubit indexes 4, 2, 6 in a register then this will return
7 (index 6 is the 7th qubit).
(Inherited from GeneralSimulatedOperation.) | |
OperationMatrix | The matrix representing the operation. (Inherited from GeneralSimulatedOperation.) | |
SetRotateBy(Double) |
Set the amount that this operation rotates about the Y axis by.
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SetTargetQubit(Int32) |
Set the target index of this single qubit operation.
(Inherited from GeneralSimulatedQubitOperation.) | |
Tensor(IQuantumOperation) |
Tensor two operations into one combined one.
(Inherited from GeneralSimulatedOperation.) | |
ToString()()() |
Get the string representation of this operation.
(Inherited from GeneralSimulatedOperation.) |
Inheritance Hierarchy
Object | |||
GeneralSimulatedOperation | |||
GeneralSimulatedQubitOperation | |||
OperationRotateY |