Quantum Computing Course 2025

Organized by IIT Roorkee & Centre for Development of Advanced Computing With the support of Ministry of Electronics and Information Technology (MeitY), Government of India.

Criteria for Completion and Participation Certificate

Note: Incorrect or invalid questions have been removed and were not considered during the evaluation.

Criteria for Completion Certificate:

• A score of more than 40% in at least 3 out of the 4 quizzes.
• The final score is calculated as the average of the best 3 quiz scores.

Criteria for Participation Certificate:

• Awarded to participants who attempted the quizzes but did not manage to pass at least 3 quizzes.

Certificates will be sent to registered email id by 14th-15th June 2025

Feedback Form:

To help us enhance future courses, we would be grateful if you could take a few moments to fill out our FEEDBACK form. Your contributions will be vital as we strive to improve.

Course FAQ Link

Joining Links:

• Zulip QCTraining ChatRoom Invitation Link . This is the only official discussion forum platform.
• Access to Qniverse platform can be requested from following link Request Link.
• Access to QSim indigenous simulator can be achieved by sending request email on qcworkbench@cdac.in

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Recorded Lectures of One Month course on Quantum Computing May 2025 - Playlist

Recorded Letures of One Month course on Quantum Computing May 2023 - GitHub Repository

Course Details

## Course Date : 03 May 2025 to 25 May 2025

Course Timings :

10:00 AM IST to 01:00 PM IST

Mode :

Online (on Weekends only)

Course Duration :

4 WEEKS (CLASSES ON SATURDAY AND SUNDAY EVERY WEEK IN ONLINE MODE)

Course Content ::

Week 1 :: Introduction & Basic operations:

• Intro to qubits, Single qubit states, vector spaces and bases.

• Basics instructions on using Quantum Simulators with examples.

• Quantum gates (single qubit), Multi qubit states, Entanglement and Teleportation.

• Quantum Simulators examples on Teleportation and Superdense coding.

Week 2 :: Multi qubit transformations & Boolean Functions:

• Multi qubit computational basis, Multi qubit gates/measurements, Universal quantum gates and approximation of quantum gates.

• Quantum Simulators examples for topics covered.

• Quantum versions of classical operations, reversible classical gates, Boolean function oracles (construction and complexity).

• Quantum Simulators examples for topics covered.

Week 3 :: Basic quantum algorithms:

• Deutsch and Deutsch algorithm (with a few comments on the quantum advantage)

• Quantum Simulators demonstration of the algorithm.

• Simon’s algorithm (with a few comments on hybrid quantum algorithms)

• Quantum Simulators demonstration of the algorithm.

Week 4 :: Advanced quantum algorithms & QML:

• Grover’s search algorithm, Harrow–Hassidim–Lloyd (HHL) algorithm, VQE algorithm etc.

• Introduction to QSim

• Quantum Machine Learning

Prerequisites ::

Basic Knowledge of Python Programming, Linear Algebra and Physics

Contact Email Id: qctraining@cdac.in