“Qiskit Progression : Intermediate Techniques in Quantum Computing”
Prerequisites:
Linear Algebra and Basic Python Programming, Basics of Quantum Mechanics
Course description:
This course is the second installment in the practical introduction of Quantum Computing. Building upon the foundational knowledge acquired in the first course, this intermediate-level course aims to enable learners to apply the Quantum computing concepts they have learned.
Through hands-on demonstrations, participants will gain practical experience in implementing Quantum algorithms. The course will cover essential algorithms such as Quantum teleportation and Grover’s algorithm, providing learners with a deeper understanding of the concepts and applications.
By the end of this course, participants will have developed the skills necessary to implement these Quantum algorithms themselves, fostering a stronger grasp of Quantum Computing principles and expanding their ability to leverage Quantum Computing for various problem-solving scenarios.
Instructor:
Mr. Chetan Waghela, Advisory Research Scientist at Qkrishi and Research Scholar at IIT Ropar
1. Complex numbers and Matrices
2. Linear vector space
3. Postulates of Quantum Mechanics
4. Pure states and Bloch spere
5. Composite systems and Bells theorem
6. Quantum gates and circuits
7. Introduction to Qiskit
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Qkrishi is India’s leading quantum computing startup, specializing in the development of quantum software solutions for finance, healthcare, and logistics.
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We are dedicated to delivering cutting-edge solutions that harness the power of quantum computing, and alongside our research work, we provide comprehensive courses on quantum computing technology that cover basic concepts and progress to advanced topics, equipping learners with the skills and knowledge required to excel in this rapidly evolving field.