U1Gate#
- class qiskit.circuit.library.U1Gate(theta, label=None)[source]#
Bases :
GateSingle-qubit rotation about the Z axis.
This is a diagonal gate. It can be implemented virtually in hardware via framechanges (i.e. at zero error and duration).
Avertissement
This gate is deprecated. Instead, the following replacements should be used
\[U1(\lambda) = P(\lambda)= U(0,0,\lambda)\]circuit = QuantumCircuit(1) circuit.p(lambda, 0) # or circuit.u(0, 0, lambda)
Circuit symbol:
âââââââââ q_0: †U1(λ) â âââââââââMatrix Representation:
\[\begin{split}U1(\lambda) = \begin{pmatrix} 1 & 0 \\ 0 & e^{i\lambda} \end{pmatrix}\end{split}\]Examples:
\[U1(\lambda = \pi) = Z\]\[U1(\lambda = \pi/2) = S\]\[U1(\lambda = \pi/4) = T\]Voir aussi
RZGate: This gate is equivalent to RZ up to a phase factor.\[U1(\lambda) = e^{i{\lambda}/2} RZ(\lambda)\]U3Gate: U3 is a generalization of U2 that covers all single-qubit rotations, using two X90 pulses.Reference for virtual Z gate implementation: 1612.00858
Create new U1 gate.
Attributes
- condition_bits#
Get Clbits in condition.
- decompositions#
Get the decompositions of the instruction from the SessionEquivalenceLibrary.
- definition#
Return definition in terms of other basic gates.
- duration#
Get the duration.
- label#
Return instruction label
- name#
Return the name.
- num_clbits#
Return the number of clbits.
- num_qubits#
Return the number of qubits.
- params#
return instruction params.
- unit#
Get the time unit of duration.
Methods