IBM C1000-112 Fundamentals of Quantum Computation Using Qiskit v0.2X Developer Online Training
IBM C1000-112 Online Training
The questions for C1000-112 were last updated at Nov 01,2025.
- Exam Code: C1000-112
- Exam Name: Fundamentals of Quantum Computation Using Qiskit v0.2X Developer
- Certification Provider: IBM
- Latest update: Nov 01,2025
Which quantum gate is equivalent to classical NOT-gate?
- A . X-gate
- B . Y-gate
- C . Z-gate
- D . H-gate
How does the storage of information differ between classical and quantum systems?
- A . Classical systems can store infinite amounts of information
- B . Quantum systems have limited storage capacity
- C . Both systems have similar storage capacities
- D . Quantum systems can store more information due to qubit properties
In the given circuit what are the possible ways to measure the quantum register using the classical register? (Select 2)
q = QuantumRegister(3)
c = ClassicalRegiser(3)
qc = QuantumCircuit(q,c)
qc.h(0)
qc.cx(0,1)
qc.cx(0,2)
qc.barrier()
- A . qc.measure([0,1,2],[0,1,2])
- B . qc.measure_all()
- C . qc.measure([0,0],[1,1],[2,2])
- D . qc.measure(q,c)
- E . qc.measure(0,1,2)
Which gate is typically used to reset a qubit’s state to |0> in a quantum circuit?
- A . T gate
- B . Reset gate
- C . Pauli-Z gate
- D . Hadamard gate
Which aspect of quantum circuits does Qasm primarily focus on?
- A . Handling classical data operations
- B . Managing quantum error correction
- C . Describing quantum gate sequences and qubit operations
- D . Visualizing qubit states
Which of the following statement will convert the below qasm file to a Quantum circuit qc?
myfile.qasm
OPENQASM 2.0;
include "qelib1.inc";
qreg q[2];
h q[0];
h q[1];
s q[0];
s q[1];
- A . qc = QuantumCircuit.from_file(‘myfile.qasm’)
- B . qc = QuantumCircuit.from_qasm_file(‘myfile.qasm’)
- C . qc = QuantumCircuit.read(‘myfile.qasm’)
- D . qc = QuantumCircuit.read(‘myfile.qasm’)
- E . qc = QuantumCircuit.qasm_read(‘myfile.qasm’)
Which component of Qiskit provides a high-level interface for quantum circuit creation and manipulation?
- A . Qiskit Aer
- B . Qiskit Terra
- C . Qiskit Ignis
- D . Qiskit Aqua
How does Qiskit Terra contribute to the process of quantum circuit creation?
- A . It provides real quantum hardware for circuit execution
- B . It designs and simulates quantum circuits on classical computers
- C . It focuses on quantum error correction for circuits
- D . It generates quantum algorithms for various applications
What does the draw(output=’latex’) function in qiskit returns?
- A . TextDrawing
- B . matplotlib.figure.Figure
- C . PIL.Image
- D . str
Given the state vector represented by this Bloch sphere of single bit quantum circuitqc, please choose the operations.
Which would lead to this state by assuming the quantum circuit is initialized to |0> (select any 3)
- A . qc.h(0)
- B . qc.h(0)
qc.x(0) - C . qc.ry(math.pi / 2, 0)
qc.x(0) - D . qc.rx(math.pi, 0)
- E . qc.rx(math.pi, 0)
qc.rz(math.pi, 0)
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