Describe the differences in measurement in bases and computational basis.

Explain Single qubit and multiple qubit gates with diagram.

Demonstrate quantum teleportation with suitable example.

Describe Qubit copying circuit.

Draw quantum circuits diagram that represents the operations.

Describe how tensor product combines qubit states?

Describe Time-Evolution of a Closed System.

Describe role of quantum entanglement in quantum architecture.

Explain Mixed States and General Quantum Operations.

Describe hidden sub group problem for quantum Fourier transform.

Explain universal sets of quantum gates.

Compare order-finding and factoring for Fourier transform.

Discuss single qubit gates in quantum computation, and how do they operate on qubits?

Describe Qubit copying circuit in detail.

Explain tensor product of two vector spaces, and how is it used in quantum mechanics?

Discuss Quantum circuits, and how are they used to manipulate qubits?

Explain Bell states, and their importance in quantum information processing.

Consider the vectors in Hilbert spaces- a = [2 1 1]^T, b = [1 0 -3]^T. Evaluate : i) Inner product of two real vectors <a ,b> ii) Norm ||a||

Explain Time-Evolution of a Closed Quantum System in detail.

Describe the Universal sets of quantum gates and its importance in quantum computing.

Explain in detail Quantum Fourier Transform is used in phase estimation.

Explain Mixed States and General Quantum Operations.

Discuss Quantum entanglement in detail.

Describe General application of Quantum Fourier Transform.

Describe measurement in bases other than the computational basis. Explain each.

Define Quantum Circuits.

Demonstrate quantum teleportation with suitable example.

Describe Qubit copying circuit.

Explain the Products and Tensor Products.

Define Multiple Qubit Gates with example.

Describe Time-Evolution of a Closed System.

Describe role of measurement in quantum architecture.

Explain Quantum Phase Estimation.

Describe applications of quantum Fourier transform.

Explain universal sets of quantum gates.

Describe the state of a Quantum System.

Explain Quantum Part of the Shor’s Algorithm.

Describe Grover’s Algorithm.

Explain Factoring Integers, with example.

Discuss analysis of Deutsch algorithm in details.

Explain Nearest Neighbour Search in detail.

Explain Quantum Algorithms for Linear Algebra.

Identify the key differences between classical SVM and Quantum SVM in terms of their advantages?

Explain quantum boosting with example.

Explain Quantum Teleportation in detail.

Describe Quantum cryptography and secure communication in detail.

Explain in short Quantum Dense Coding.

Explain Noise and error models in quantum systems.

State the challenges and limitations are associated with quantum computing in data sciences.

Describe Heuristic Search with example.

Describe the Quantum Walk-Random Insect.

Write a short note on Quantum Tree Search.

Describe Shor’s Algorithm with example.

Explain Simon’s Algorithm.

Explain Factoring Integers, with example.

Describe Grover’s Algorithm with example.

Discuss analysis of Deutsch algorithm in details.

Write a short note on: Phase Kick-Back.

Explain in details quantum support vector machines.

Explain Nearest Neighbour Search in detail.

Explain in detail - Quantum Boosting.

Write a short note on: Variational Quantum Algorithms.

Explain Quantum Neural Networks.

Describe classification in quantum machine learning with examples.

What are some practical challenges and limitations associated with error model encoding in quantum computing.

Describe Quantum Key Distribution in short.

Discuss the Classical Three-Bit Code.

Explain in short Quantum Dense Coding.

Discuss in detail Quantum cryptography.

Write a short Note on Fault Tolerance.

Write short note on Quantum Walk.

Explain Quantum Neural Computation.

Write a short note on Quantum Tree Search.

State the challenges and limitations are associated with quantum computing in data sciences.

Explain Quantum Production System in detail.

Describe the Heuristic Search with example.