QC201 - Advanced Math for Quantum Computing

QC201 : Advanced Math for Quantum Computing, available at $64.99, has an average rating of 4.56, with 36 lectures, based on 285 reviews, and has 2737 subscribers.

You will learn about Advanced Math Techniques for Quantum Computing This course is ideal for individuals who are Students who have completed my earlier courses and want to move to the next level in Quantum Computing It is particularly useful for Students who have completed my earlier courses and want to move to the next level in Quantum Computing.

Enroll now: QC201 : Advanced Math for Quantum Computing

Summary

Title: QC201 : Advanced Math for Quantum Computing

Price: $64.99

Average Rating: 4.56

Number of Lectures: 36

Number of Published Lectures: 36

Number of Curriculum Items: 36

Number of Published Curriculum Objects: 36

Original Price: $24.99

Quality Status: approved

Status: Live

What You Will Learn

Advanced Math Techniques for Quantum Computing

Who Should Attend

Students who have completed my earlier courses and want to move to the next level in Quantum Computing

Target Audiences

Students who have completed my earlier courses and want to move to the next level in Quantum Computing

This course covers the Math you need to begin learning about quantum algorithms and applications of quantum computing.

This is primarily a Math course. It doesn’t cover any quantum algorithms or applications. This course teaches you the Math you need to begin learning about quantum algorithms. Quantum algorithms will be covered in later courses.

Almost everything in this course is explained with rigorous proofs. After you complete this course, quantum physics will not seem so mysterious.

PREREQUISITES

To get the most from this course, you must be completely familiar with all the topics covered in the earlier prerequisite courses:

QC051 ,

QC101 ,

and QC151 .

MATH TECHNIQUES COVERED IN THIS COURSE

Orthonormality

Basis Vectors & Change of Basis

Bloch Sphere

Tensor Products

Multi-Qubit Tensor Algebra

Entanglement in terms of Degrees of Freedom

Partial Measurements

Cryptography with Entanglement

Deconstruction of Hermitian and Unitary Matrices into a Sum of Outer Products

QUANTUM APPLICATIONS COVERED IN THIS COURSE

Superdense Coding

Quantum Teleportation

Proof of No-Cloning Theorem

Bell’s Theorem (Statement and Proof)

HOW TO GET THE MOST FROM THIS COURSE

The material presented here is significantly more advanced than my previous courses on QC.

To get the most from this course, you might need to rewind and repeat each lesson 2-3 times.

It is a good idea to pause the lessons frequently and follow along with the Math.

Give yourself breaks between lessons. After you complete a lesson, wait a day, or at least an hour before moving on to the next lesson.

Enroll today and I will see you in class.

Course Curriculum

Chapter 1: Introduction and Prerequisites

Lecture 1: Welcome

Lecture 2: Recap & Revision of Concepts

Chapter 2: Core Math Techniques

Lecture 1: Probability of Measurement

Lecture 2: Orthonormality

Lecture 3: Orthonormality in Bracket Notation

Lecture 4: Introduction to Basis Vectors

Lecture 5: Basis Vectors for Spin

Lecture 6: Introduction to Degrees of Freedom

Lecture 7: Degrees of Freedom for a Single Qubit

Lecture 8: Global & Relative Phase

Lecture 9: Bloch Sphere

Lecture 10: Tensor Products

Lecture 11: Tensor Products of Matrices

Lecture 12: Multi-Qubit Basis Vectors

Lecture 13: Brackets of Tensor Terms

Lecture 14: Multi-Qubit Tensor Algebra

Lecture 15: Entanglement & Degrees of Freedom

Lecture 16: Entanglement in Bracket Notation

Lecture 17: Change of Basis

Lecture 18: Multi-Qubit Measurements

Lecture 19: Partial Measurement of Multiple Qubits

Lecture 20: Square Matrices in Bracket Notation

Lecture 21: Multi-Qubit Transformation Matrices

Lecture 22: Cryptography with Entanglement

Lecture 23: Expected Value of Measurables

Lecture 24: Expected Value in Matrix Form

Lecture 25: Deconstruction of Hermitians

Lecture 26: Deconstruction of Unitary Matrices

Chapter 3: Applications

Lecture 1: Proof of No-Cloning Theorem

Lecture 2: Superdense Coding

Lecture 3: Quantum Teleportation

Lecture 4: Bells Theorem – 1 – Statement

Lecture 5: Bells Theorem – 2 – Lemma

Lecture 6: Bells Theorem – 3 – Proof

Chapter 4: Conclusion

Lecture 1: Conclusion

Chapter 5: Appendix A

Lecture 1: Slides

Instructors

Kumaresan Ramanathan
Principal Architect at Coroman Systems

Rating Distribution

1 stars: 2 votes

2 stars: 3 votes

3 stars: 26 votes

4 stars: 97 votes

5 stars: 158 votes

Frequently Asked Questions

How long do I have access to the course materials?

You can view and review the lecture materials indefinitely, like an on-demand channel.

Can I take my courses with me wherever I go?

Definitely! If you have an internet connection, courses on Udemy are available on any device at any time. If you don’t have an internet connection, some instructors also let their students download course lectures. That’s up to the instructor though, so make sure you get on their good side!