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IBM C1000-112認定試験は、Qiskit v0.2Xデベロッパーを使用した量子計算の専門知識を認定する業界標準の資格です。認定を取得することで、Qiskitテクノロジーを使用して量子アプリケーションやシステムを構築する知識、応用スキル、能力を証明できます。IBM C1000-112認定を取得した個人は、急速に進化する量子コンピューティング分野において、業界での幅広い雇用機会を開くことができます。
質問 # 86
Assuming the fragment below, which three code fragments would produce the circuit illustrated?
inp_reg = QuantumRegister(2, name='inp')
ancilla = QuantumRegister(1, name='anc')
qc = QuantumCircuit(inp_reg, ancilla)
# Insert code here
- A. qc.h(inp_reg[0:2])
qc.x(ancilla[0])
qc.draw() - B. qc.h(inp_reg) qc.h(inp_reg) qc.x(ancilla) qc.draw()
- C. qc.h(inp_reg[1])
qc.h(inp_reg[2])
qc.x(ancilla[1])
qc.draw() - D. qc.h(inp_reg[0])
qc.h(inp_reg[1])
qc.x(ancilla[0])
qc.draw() - E. qc.h(inp_reg)
qc.x(ancilla)
qc.draw() - F. qc.h(inp_reg[0:1])
qc.x(ancilla[0])
qc.draw()
正解:A、D、E
質問 # 87
What system information can be retrieved using the show_backend_properties() function in Qiskit?
- A. Information on quantum circuit gates and operations
- B. System software updates and patches
- C. Specifics about quantum hardware, such as gate errors and connectivity
- D. Details on user accounts
正解:C
質問 # 88
In the below quantum circuit, to measure the output of qubit which of the below will be used?
qc = QuantumCircuit(1)
qc.x(0)
- A. qc.measure(0)
- B. qc.measure_full()
- C. qc.measure(0,0)
- D. qc.measure_all()
正解:D
質問 # 89
Which of the following returns process fidelity of a noisy quantum channel?
- A. fidelity_process
- B. process_fidelity
- C. gate_error
- D. average_gate_fidelity
正解:B
質問 # 90
Which Qiskit component allows the visualization of the Bloch sphere for single qubit states?
- A. Qiskit QuantumSphere
- B. Qiskit Visualizer
- C. Qiskit Bloch
- D. Qiskit BlochSphere
正解:D
質問 # 91
What is the output of the given state in qiskit after applying CNOT to it?
1/√2|00> + 1/2|10> - 1/2|11>
- A. 1/√2|01> + 1/2|01> - 1/2|11>
- B. 1/√2|00> + 1/2|11> - 1/2|10>
- C. 1/√2|00>
- D. 1/√2|00> + 1/2|10> - 1/2|11>
正解:B
質問 # 92
We have a two-qubit quantum circuit q1, q0 What is the matrix representation of CNOT (q1, q0) in the given options below?
- A.

- B.

- C.

- D.

正解:D
質問 # 93
Which line of code would assign a unitary simulator object to the variable backend?
- A. backend = BasicAer.UnitarySimulatorPy()
- B. backend = BasicAer.get_back('unitary_simulator')
- C. backend = BasicAer.get_backend('unitary_simulator')
- D. backend = BasicAer.get_back_unitary_simulator()
正解:C
質問 # 94
Which of the following is the best option to plot the |+> basis in plot_bloch_vector?
- A. plot_bloch_vector([0,0,1])
- B. plot_bloch_vector([0,1,0])
- C. plot_bloch_vector([0,0.5,0])
- D. plot_bloch_vector([1,0,0])
正解:D
質問 # 95
Which Qiskit component is primarily focused on researching and improving quantum algorithms?
- A. Qiskit Aer
- B. Qiskit Ignis
- C. Qiskit Aqua
- D. Qiskit Terra
正解:C
質問 # 96
If we have n qubits, how many states can we represent maximum?
- A. 2^n - 1
- B. n^2
- C. 2n
- D. 2^n
正解:D
質問 # 97
Which technique is commonly used to extract meaningful information from the measurement outcomes in quantum experiments?
- A. Quantum error correction
- B. Quantum entanglement mapping
- C. Statistical analysis
- D. Quantum gate optimization
正解:C
質問 # 98
How does the concept of "quantum superposition" contribute to information processing in quantum systems?
- A. It allows for the storage of classical bits in quantum systems
- B. It enables the simultaneous representation of multiple states
- C. It limits the capacity for storing information in qubits
- D. It ensures deterministic outcomes in quantum computations
正解:B
質問 # 99
In the below code, which of the following statement is non-unitary?
qc= QuantumCircuit(2,2)
qc.x(0)
qc.y(1)
qc.z(1)
qc.measure([0,1],[0,1])
- A. qc.y(1)
- B. qc.measure([0,1],[0,1])
- C. qc.z(1)
- D. qc.x(0)
正解:B
質問 # 100
What kind of information does the statevector_simulator provide about a quantum circuit?
- A. The unitary matrix representing the quantum gates in the circuit
- B. The measurement outcomes of the qubits
- C. The noise model affecting the quantum operations
- D. The final state vector of the quantum system after the circuit execution
正解:D
質問 # 101
Which Qiskit component is specifically designed for implementing quantum error correction and mitigation techniques?
- A. Qiskit Aer
- B. Qiskit Ignis
- C. Qiskit Terra
- D. Qiskit Aqua
正解:B
質問 # 102
Which principle in quantum computing is violated by Bell's theorem?
- A. Locality
- B. Coherence
- C. Entanglement
- D. Superposition
正解:A
質問 # 103
What Qiskit function is commonly used to display the connectivity map of a quantum device?
- A. plot_qubit_topology()
- B. visualize_connectivity()
- C. show_qubit_map()
- D. display_connectivity()
正解:B
質問 # 104
Which gate will allow us to change from |+> basis to |-> basis?
- A. H-gate
- B. X-gate
- C. Z-gate
- D. Y-gate
正解:C
質問 # 105
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