C1000-112 Fundamentals of Quantum Computation Using Qiskit v0.2X Developer

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Number of questions: 60
Number of questions to pass: 44
Time allowed: 90 mins
Status: Live

An IBM Qiskit Developer is an individual who demonstrates fundamental knowledge of quantum computing concepts and is able to express them using the Qiskit open source software development kit (SDK). They have experience using the Qiskit SDK from the Python programming language to create and execute quantum computing programs on IBM Quantum computers and simulators.

Key areas of competency:
Defining, executing, and visualizing results of quantum circuits using the Qiskit SDK
Understanding single-qubit gates and their rotations on the Bloch sphere.
Understanding various multi-qubit gates and their effects in quantum circuits.
Leveraging fundamental Qiskit SDK features including commonly-used classes and functions located in qiskit.circuit, qiskit.execute, qiskit.providers, qiskit.qasm, qiskit.quantum_info, qiskit.tools, and qiskit.visualization packages.


During exam development, the Subject Matter Experts (SMEs) define all of the tasks, knowledge and experience that an individual would need in order to successfully fulfill their role with the product or solution. These are represented by the objectives below and the questions on the certification exam are based upon these objective.

1 Perform Operations on Quantum Circuits 47%
Construct multi-qubit quantum registers
Measure quantum circuits in classical registers
Use single-qubit gates
Use multi-qubit gates
Use barrier operations
Return the circuit depth
Extend quantum circuits
Return the OpenQASM string for a circuit

2 Executing Experiments 3%
Execute a quantum circuit

3 Implement BasicAer: Python-based Simulators 3%
Use the available simulators

4 Implement Qasm 1%
Read a QASM file

5 Compare and Contrast Quantum Information 10%
Use classical and quantum registers
Use operators
Measure fidelity

6 Return the Experiment Results 7%
Return the histogram data of an experiment
Return the statevector of an experiment
Return the unitary of an experiment

7 Use Qiskit Tools 1%
Monitor the status of a job instance

8 Display and Use System Information 3%
Perform operations around the Qiskit version
Use information gained from quiskit_backend_overview

9 Construct Visualizations 19%
Draw a circuit
Plot a histogram of data
Plot a Bloch multivector
Plot a Bloch vector
Plot a QSphere
Plot a density matrix
Plot a gate map with error rates

10 Access Aer Provider 6%
Assess a statevector_simulator backend
Assess a qasm_simulator backend
Assess a unitary_simulator backend

Overview
PartnerWorld Code: C0010300
Replaces PW Code: Not Applicable

Status: Live
An IBM Qiskit Developer is an individual who demonstrates fundamental knowledge of quantum computing concepts and is able to express them using the Qiskit open source software development kit (SDK). They have experience using the Qiskit SDK from the Python programming language to create and execute quantum computing programs on IBM Quantum computers and simulators.

Key areas of competency:
Defining, executing, and visualizing results of quantum circuits using the Qiskit SDK
Understanding single-qubit gates and their rotations on the Bloch sphere.
Understanding various multi-qubit gates and their effects in quantum circuits.
Leveraging fundamental Qiskit SDK features including commonly-used classes and functions located in qiskit.circuit, qiskit.execute, qiskit.providers, qiskit.qasm, qiskit.quantum_info, qiskit.tools, and qiskit.visualization packages.

Recommended Prerequisite Skills
Working knowledge of creating, executing, and visualizing the results quantum of circuits using the online IBM Quantum Composer
Working knowledge of developing examples that highlight features of the Qiskit SDK, such as those found in the online IBM Quantum Lab
Working knowledge of modeling quantum states and evolution with complex vectors and matrices.
Working knowledge of Pauli matrices.
Working knowledge of quantum state measurement probabilities.
Familiarity with common circuits such as those that result in the Bell states.

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