Quantum Computing Foundations Certified Course

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About Course

Course Description:

The Quantum Computing Foundations is a comprehensive introductory course designed to build a strong conceptual and practical understanding of quantum computation. The course covers the fundamental principles of quantum mechanics, including qubits, superposition, entanglement, and quantum measurement, along with quantum gates and circuits. Learners will gain hands-on exposure to quantum algorithms such as Grover’s and Shor’s algorithms, and understand how quantum computers differ from classical systems. With real-world examples and practical simulations using modern quantum frameworks, this course prepares students and professionals to explore advanced quantum technologies and future research or industry applications.

Key Features of Course Divine:

Collaboration with E‑Cell IIT Tirupati
1:1 Online Mentorship Platform
Credit-Based Certification
Live Classes Led by Industry Experts
Live, Real-World Projects
100% Placement Support
Potential Interview Training
Resume-Building Activities

Career Opportunities After Quantum Computing Foundations Certified Course:

Quantum Computing Research Assistant
Quantum Software Developer
Quantum Algorithm Engineer
Quantum Data Scientist
Quantum Hardware Engineer (Entry Level)
Research Analyst – Quantum Technologies
Quantum Simulation Engineer
R&D Engineer in Advanced Computing
Academic / PhD Research Scholar
Quantum Technology Consultant (Junior Level)

Essential Skills you will Develop Quantum Computing Foundations Certified Course:

Quantum mechanics fundamentals for computing
Qubit modeling and quantum state representation
Understanding superposition and entanglement
Quantum gates and circuit design
Quantum measurement and error basics
Quantum algorithms fundamentals
Quantum programming concepts
Problem-solving using quantum logic
Simulation of quantum systems
Analytical and research-oriented thinking

Tools Covered:

IBM Quantum Experience
Qiskit
Python for Quantum Computing
Quantum Circuit Simulators
Jupyter Notebook
Quantum Gate Libraries
Cloud-based Quantum Platforms
Quantum Visualization Tools
Linear Algebra Libraries (NumPy)
Version Control Basics (Git)

Syllabus:

Module 1: Introduction to Quantum Computing Classical vs Quantum Computing History and evolution of quantum technology Quantum computing use cases.

Module 2: Basics of Quantum Mechanics Linear algebra essential Quantum states and wave functions Dirac notation.

Module 3: Qubits and Quantum States Qubits vs classical bits Bloch sphere representation Multi-qubit systems.

Module 4: Superposition and Entanglement Principles of superposition Entanglement concepts Bell states.

Module 5: Quantum Gates Single-qubit gates Multi-qubit gates Gate matrices.

Module 6: Quantum Circuits Circuit design and execution Circuit depth and optimization Measurement operations.

Module 7: Quantum Algorithms Deutsch–Jozsa algorithm Grover’s search algorithm Shor’s algorithm (overview).

Module 8: Quantum Programming Introduction to Qiskit Building quantum circuits using Python Running circuits on simulators.

Module 9: Quantum Errors and Noise Quantum decoherence Noise models Error mitigation basics.

Module 10: Applications and Future Trends Quantum computing in cryptography Optimization and machine learning Career paths and research directions.

Industry Projects:

Quantum Circuit Design and Simulation
Qubit State Visualization using Bloch Sphere
Implementation of Grover’s Search Algorithm
Quantum Random Number Generator
Quantum Encryption Basics Simulation
Noise Analysis in Quantum Circuits
Optimization Problem using Quantum Algorithms
Quantum Gate Performance Analysis
Classical vs Quantum Algorithm Comparison
Cloud-based Quantum Computer Execution

Who is this program for?

Engineering and science students
Computer science and IT graduates
Working professionals exploring emerging technologies
Researchers and PhD aspirants
Data scientists and AI professionals
Software developers and programmers
Faculty members and academic professionals
R&D and innovation teams
Technology enthusiasts and career switchers
Professionals preparing for advanced quantum studies

How To Apply:

Mobile: 9100348679

Email: coursedivine@gmail.com