Udemy - Quantum Computing Foundations

Quantum Computing Foundations

https://WebToolTip.com

MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz
Language: English | Size: 3.13 GB | Duration: 2h 20m

Theory to Hands-On Practice with Qiskit

What you'll learn
Explain fundamental quantum principles like superposition and entanglement and how they differ from classical computing constraints
Apply linear algebra, Dirac notation, and Hamiltonians to model quantum states, gates, and the evolution of multi-qubit systems
Construct hybrid algorithms like VQE and QAOA to solve combinatorial optimization problems by mapping them to Ising Hamiltonians
Program quantum circuits using Qiskit to run experiments on simulators and real IBM Quantum hardware to solve the Max-Cut problem

Requirements
Skills & Experience
Familiarity with matrices, vectors, and basic operations (the course uses Dirac notation and matrix multiplication)
High School Physics: A fundamental understanding of basic physical concepts (e.g., energy, motion) to help contextualize quantum phenomena.
Basic Programming Knowledge: Final project involves programming in Python using Qiskit and Jupyter Notebooks, so basic coding comfort is highly recommended.
Tools & Equipment
Computer: A desktop or laptop capable of running Python and Jupyter Notebooks.
Internet Access: Required to access course materials and connect to IBM’s quantum processors via the cloud.
IBM Quantum Account: You will need to create a free account with IBM Quantum to deploy your project code to real hardware.