Get started with Azure Quantum

Overview

Module 1: Learn how to get started with Azure Quantum and create an Azure Quantum workspace.

In this module, you will:

Discover what the Azure Quantum service has to offer: quantum computing and optimization.
Prepare your Azure account to use Azure Quantum.
Create an Azure Quantum workspace.
Learn about application domains for Azure Quantum.

Module 2: Get started with Q# programming by building a quantum random number generator.

In this module you will:

Prepare your development environment for writing quantum programs in Q#.
Work with qubits and superposition to build a quantum random number generator.
Understand how Q# programs are structured.

Module 3: Learn the fundamental concepts of quantum computing by using tools in Q# and the Quantum Development Kit.

After completing this module, you'll be able to:

Explain the basic theory behind the power of quantum computing, including concepts like superposition, interference, and entanglement.
Inspect quantum states when you run code in simulated quantum computers.
Estimate the quantum resources that you need to run your programs.
Explore algorithms that use quantum properties to outperform classical algorithms.

Module 4: Learn how Grover's algorithm can help you solve search problems such as graph coloring problems.

After completing this module, you'll be able to:

Build quantum oracles that implement classical functions on a quantum computer.
Explain the roles superposition, interference, and entanglement play in building quantum algorithms.
Write a Q# program that uses Grover's search algorithm to solve a graph coloring problem.
Recognize the kinds of problems for which Grover's search algorithm can offer speedup compared to classical algorithms.

Module 5: Learn about libraries in Q# and how to add them to your projects, discover the Q# API documentation, implement another application of Grover's algorithm by using the standard library, and write documentation for your own code.

In this module, you will:

Learn about libraries in Q#, specifically how they're distributed and how to add them to your projects.
Use the Q# standard library to express quantum algorithms at a high level.
Get to know the API documentation and integrated help capabilities to more efficiently find and use Q# functionality.
Write API documentation comments to help document and explain your Q# programs.

Module 6: Get started with quantum computing on Azure Quantum and learn how to create and run Q# quantum programs on quantum computers in the cloud.

After completing this module, you'll be able to:

Differentiate and comprehend the main hardware solutions for quantum computers.
Understand how Azure Quantum provides you with access to quantum devices to run quantum algorithms.
Adapt and create Q# applications to run them in Azure Quantum.
Submit and manage quantum computing jobs in Azure Quantum in your preferred environment: Python, Jupyter, or the Azure CLI.

Module 7: Learn how quantum-inspired algorithms mimic quantum physics to solve difficult optimization problems.

In this module, you'll:

Learn about the origins of quantum-inspired algorithms.
See which kinds of problems are best suited to this method.
Understand how algorithms inspired by physical processes are used to solve difficult problems.
Solve a combinatorial optimization problem by using the Azure Quantum optimization service.

Module 8: Learn how to use Azure Quantum's optimization service to solve a job shop scheduling problem.

After completing this module, you'll be able to:

Identify and build problem constraints for the job shop scheduling problem
Convert problem constraints to a penalty model
Learn how to represent the penalty model using Azure Quantum
Solve optimization problems using Azure Quantum