Lab/Experiment Hosting Request for Quantum Computing Lab

[AmritaValueCS-22]

Lab/Experiment(s) Hosting Request

Use this issue to get your lab and experiment repositories hosted on Virtual Labs. This issue also is used to host labs and their experiments that have been migrated to Phase 3 lab/exp format from Phase 2.

Please provide item 1 for all the experiments of the lab

1. Hosting Unit:

No.	Experiment Name	Experiment Repository URL	Branch/Tag
1	Expectation Value Calculation in Quantum Systems	https://github.com/virtual-labs/exp-expectation-value-calculation-in-amrt	v1.0.0
2	Factorization Using Shor’s Algorithm	https://github.com/virtual-labs/exp-factorization-using-shors-algorithm-amrt	v1.0.0
3	Variational Quantum Eigensolver (VQE) Optimization	https://github.com/virtual-labs/exp-variational-quantum-eigensolver-vqe-amrt	v1.0.0
4	Quantum Measurement and Result Interpretation	https://github.com/virtual-labs/exp-quantum-measurement-result-amrt	v1.0.0
5	Quantum Linear Algebra – Matrix and Vector Operations	https://github.com/virtual-labs/exp-quantum-linear-algebra-matrix-amrt	v1.0.0
6	Applied Linear Algebra – Quantum Gates in Action	https://github.com/virtual-labs/exp-applied-linear-algebra-quantum-amrt	v1.0.0
7	Quantum Kernel Alignment in Machine Learning	https://github.com/virtual-labs/exp-quantum-kernel-alignment-ml-amrt	v1.0.0
8	Quantum Support Vector Machines (QSVM)	https://github.com/virtual-labs/exp-quantum-support-vector-machines-amrt	v1.0.0

2. GitHub Handle Details:

   Name: VALUE Virtual Labs

   GitHub Handle:@AmritaValueCS-22

   Email id: virtual_labs@am.amrita.edu

3. Virtual Lab Phase: Extended Phase 3

4. Existing Hosted URL: N/A

5. Approved Proposal & Hosting Approval Mail:

Eligible for Hosting_QuantumComputing.pdf
Proposal.for.Virtual.Lab.on.Quantum.Computing.pdf

6. Introduction:
   Quantum computing is an emerging paradigm that leverages quantum mechanics principles to perform computations more efficiently than classical systems for certain problems. This virtual lab provides interactive experiments and simulations to help students understand quantum computing concepts such as qubits, superposition, entanglement, quantum gates, and quantum algorithms.

7. Objective:
   To enable students to understand quantum computing principles, visualize quantum states and operations, experiment with quantum algorithms, and analyze quantum system behavior through interactive simulations.

8. Course Alignment:

• AICTE – Quantum Computing / Emerging Technologies
• NPTEL / SWAYAM – Quantum Computing Courses
• International MOOCs (MIT, IBM, Coursera, EdX)

9. Target Audience:
   Undergraduate and postgraduate students in Computer Science, Information Technology, Physics, and related domains

10. Discipline:
    Computer Science and Engineering

11. Name of the Lab:
    Quantum Computing Lab

[ravikiran2020]

@AmritaValueCS-22 Lab is hosted successfully.

url: https://qc-amrt.vlabs.ac.in/

Please check and approve.

[AmritaValueCS-22]

Approved