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Lecture 1 : Why Quantum Computing?

Lecture 2 : Postulates of Quantum Mechanics I

Lecture 3 : Postulates of Quantum Mechanics II

Lecture 4 : Qubit- The smallest unit

Lecture 5 : Qubit- Bloch sphere representation

Lecture 6 : Multiple Qubit States and Quantum Gates

Lecture 7 : Quantum Gates

Lecture 8 : Quantum Circuts

Lecture 9 : No-Cloning Theorem and Quantum Teleportation

Lecture 10 : Super Dense Coding

Lecture 11 : Density Matrix-I

Lecture 12 : Density Matrix-II

Lecture 13 : Bloch Sphere and Density Matrix

Lecture 14 : Measurement Postulates-I

Lecture 15 : Measurement Postulates-II

Lecture 16 : Simple Algorithms-Deutsch Algorithm

Lecture 17 : Deutsch-Josza & Bernstein-Vazirani Algorithms

Lecture 18 : Simon Problem

Lecture 19 : Grover's Search Algorithm - I

Lecture 20 : Grover's Search Algorithm - II

Lecture 21 : Grover's Search Algorithm - III

Lecture 22 : Grover's Search Algorithm - IV

Lecture 23 : Quantum Fourier Transform

Lecture 24 : Period Finding and QFT

Lecture 25 : Implementing QFT

Lecture 26 : Implementing QFT-3 qubits (and more)

Lecture 27 : Shor's Factorization Algorithm

Lecture 28 : Shor's Factorization Algorithm-Implementation

Lecture 29 : Shor's Algorithm-Continued Fraction

Lecture 30 : Quantum Error Correction-I

Lecture 31 : Quantum Error Correction-II Three Qubit Code

Lecture 32 : Quantum Error Correction-III Shor's 9 Qubit Code-I

Lecture 33 : Quantum Error Correction-IV Shor's 9 Qubit Code-II

Lecture 34 : Classical Information Theory

Lecture 35 : Shannon Entropy

Lecture 36 : Shannon's Noiseless Coding Theorem

Lecture 37 : Ven Neumann Entropy

Lecture 38 : EPR and Bell's Inequalities - I

Lecture 39 : EPR and Bell's Inequalities - II

Lecture 40 : EPR and Bell's Inequalities - III

Lecture 41 : Cryptography-RSA Algorithm-I

Lecture 42 : Cryptography-RSA Algorithm-II

Lecture 43 : Quantum Cryptography-I

Lecture 44 : Quantum Cryptography-II

Lecture 45 : Experimental Aspects of Quantum Computing - I

Lecture 46 : Experimental Aspects of Quantum Computing - II

Description:

COURSE OUTLINE: The course is Primarily for Students of Physics and Engineering having exposure to basic quantum mechanics and knowledge of Linear Algebra.

Quantum Information and Computing

NPTEL

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#Computer Science #Quantum Computing #Science #Physics #Quantum Mechanics #Qubits #Quantum Gates #Quantum Error Correction #Cryptography #Quantum Cryptography

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