Microsoft.Quantum.Development.Kit 0.1.1801.1707-preview

Microsoft Quantum Development Kit simulators library

Suggested Alternatives

Microsoft.Quantum.Sdk

Additional Details

Please see https://docs.microsoft.com/en-us/azure/quantum/install-update-qdk for instructions on how to update Q# projects to the latest version of the QDK, which uses the Microsoft.Quantum.Sdk package.

This is a prerelease version of Microsoft.Quantum.Development.Kit.
There is a newer version of this package available.
See the version list below for details.
Install-Package Microsoft.Quantum.Development.Kit -Version 0.1.1801.1707-preview
dotnet add package Microsoft.Quantum.Development.Kit --version 0.1.1801.1707-preview
<PackageReference Include="Microsoft.Quantum.Development.Kit" Version="0.1.1801.1707-preview" />
For projects that support PackageReference, copy this XML node into the project file to reference the package.
paket add Microsoft.Quantum.Development.Kit --version 0.1.1801.1707-preview
The NuGet Team does not provide support for this client. Please contact its maintainers for support.
#r "nuget: Microsoft.Quantum.Development.Kit, 0.1.1801.1707-preview"
#r directive can be used in F# Interactive, C# scripting and .NET Interactive. Copy this into the interactive tool or source code of the script to reference the package.
// Install Microsoft.Quantum.Development.Kit as a Cake Addin
#addin nuget:?package=Microsoft.Quantum.Development.Kit&version=0.1.1801.1707-preview&prerelease

// Install Microsoft.Quantum.Development.Kit as a Cake Tool
#tool nuget:?package=Microsoft.Quantum.Development.Kit&version=0.1.1801.1707-preview&prerelease
The NuGet Team does not provide support for this client. Please contact its maintainers for support.

Welcome to the Microsoft Quantum Development Kit preview

Thank you for your interest in Microsoft's Quantum Development Kit preview. The development kit contains the tools you'll need to build your own quantum computing programs and experiments. Assuming some experience with Microsoft Visual Studio, beginners can write their first quantum program, and experienced researchers can quickly and efficiently develop new quantum algorithms.

To jump right in, start with Installation and validation to create and validate your development environment. Then use Quickstart - your first computer program to learn about the structure of a Q# project and how to write the quantum equivalent of "Hello, world!" -- a quantum teleport application.

If you'd like more general information about Microsoft's quantum computing initiative, see Microsoft Quantum.

Feedback pipeline

Your feedback about all parts of the Quantum Development Kit is important. We ask you to provide feedback by joining our community of developers at Microsoft Quantum - Feedback. Sign in and share your experience in one of the following forums.

  • Q# language
  • Debugging and simulation
  • Samples and Documentation
  • Libraries
  • Setup and Visual Studio integration
  • General ideas and feature requests

You will need a Microsoft Account to provide feedback.

Microsoft Quantum Development Kit components

The Quantum Development Kit preview provides a complete development and simulation environment that contains the following components.

  • Q# language and compiler: Q# is a domain-specific programming language used for expressing quantum algorithms. It is used for writing sub-programs that execute on an adjunct quantum processor under the control of a classical host program and computer.
  • Q# standard library: The library contains operations and functions that support both the classical language control requirement and the Q# quantum algorithms.
  • Local quantum machine simulator: A full state vector simulator optimized for accurate vector simulation and speed.
  • Quantum computer trace simulator: The trace simulator does not simulate the quantum environment like the local quantum simulator. It is used to estimate the resources required to execute a quantum program and also allow faster debugging of the non-Q# control code.
  • Visual Studio extension: The extension contains templates for Q# files and projects as well as syntax highlighting. The extension also installs and creates automatic hooks to the compiler.

Quantum Development Kit documentation

The current documentation includes the following topics.

  • Quantum computing concepts includes topics such the relevance of linear algebra to quantum computing, the nature and use of a qubit, how to read a quantum circuit, and more.
  • Installation and validation describes how to quickly set up your quantum development environment. Your Visual Studio environment will be enhanced with a compiler for the Q# language and templates for Q# projects and files.
  • Quickstart- your first quantum program walks you through how to create the Teleport application in the Visual Studio development environment. You'll learn how to define a Q# operation, call the Q# operation using C#, and how to execute your quantum algorithm.
  • Managing quantum machines and drivers describes how quantum algorithms are executed, what quantum machines are available, and how to write a non-Q# driver for the quantum program.
  • Quantum development techniques specifies the core concepts used to create quantum programs in Q#. Topics include file structures, operations and functions, working with qubits, and some advanced topics.
  • Q# standard libraries describes the operations and functions that support both the classical language control requirement and the Q# quantum algorithms. Topics include control flow, data structures, error correction, testing, and debugging.
  • Q# language reference details the Q# language including the type model, expressions, statements, and compiler use.
  • For more information contains specially selected references to deep coverage of quantum computing topics.
  • Quantum trace simulator reference contains reference material about trace simulator entities and exceptions.
  • Q# library reference contains reference information about library entities by namespace.

Welcome to the Microsoft Quantum Development Kit preview

Thank you for your interest in Microsoft's Quantum Development Kit preview. The development kit contains the tools you'll need to build your own quantum computing programs and experiments. Assuming some experience with Microsoft Visual Studio, beginners can write their first quantum program, and experienced researchers can quickly and efficiently develop new quantum algorithms.

To jump right in, start with Installation and validation to create and validate your development environment. Then use Quickstart - your first computer program to learn about the structure of a Q# project and how to write the quantum equivalent of "Hello, world!" -- a quantum teleport application.

If you'd like more general information about Microsoft's quantum computing initiative, see Microsoft Quantum.

Feedback pipeline

Your feedback about all parts of the Quantum Development Kit is important. We ask you to provide feedback by joining our community of developers at Microsoft Quantum - Feedback. Sign in and share your experience in one of the following forums.

  • Q# language
  • Debugging and simulation
  • Samples and Documentation
  • Libraries
  • Setup and Visual Studio integration
  • General ideas and feature requests

You will need a Microsoft Account to provide feedback.

Microsoft Quantum Development Kit components

The Quantum Development Kit preview provides a complete development and simulation environment that contains the following components.

  • Q# language and compiler: Q# is a domain-specific programming language used for expressing quantum algorithms. It is used for writing sub-programs that execute on an adjunct quantum processor under the control of a classical host program and computer.
  • Q# standard library: The library contains operations and functions that support both the classical language control requirement and the Q# quantum algorithms.
  • Local quantum machine simulator: A full state vector simulator optimized for accurate vector simulation and speed.
  • Quantum computer trace simulator: The trace simulator does not simulate the quantum environment like the local quantum simulator. It is used to estimate the resources required to execute a quantum program and also allow faster debugging of the non-Q# control code.
  • Visual Studio extension: The extension contains templates for Q# files and projects as well as syntax highlighting. The extension also installs and creates automatic hooks to the compiler.

Quantum Development Kit documentation

The current documentation includes the following topics.

  • Quantum computing concepts includes topics such the relevance of linear algebra to quantum computing, the nature and use of a qubit, how to read a quantum circuit, and more.
  • Installation and validation describes how to quickly set up your quantum development environment. Your Visual Studio environment will be enhanced with a compiler for the Q# language and templates for Q# projects and files.
  • Quickstart- your first quantum program walks you through how to create the Teleport application in the Visual Studio development environment. You'll learn how to define a Q# operation, call the Q# operation using C#, and how to execute your quantum algorithm.
  • Managing quantum machines and drivers describes how quantum algorithms are executed, what quantum machines are available, and how to write a non-Q# driver for the quantum program.
  • Quantum development techniques specifies the core concepts used to create quantum programs in Q#. Topics include file structures, operations and functions, working with qubits, and some advanced topics.
  • Q# standard libraries describes the operations and functions that support both the classical language control requirement and the Q# quantum algorithms. Topics include control flow, data structures, error correction, testing, and debugging.
  • Q# language reference details the Q# language including the type model, expressions, statements, and compiler use.
  • For more information contains specially selected references to deep coverage of quantum computing topics.
  • Quantum trace simulator reference contains reference material about trace simulator entities and exceptions.
  • Q# library reference contains reference information about library entities by namespace.

Release Notes

See: https://docs.microsoft.com/en-us/quantum/quantum-relnotes

NuGet packages (1)

Showing the top 1 NuGet packages that depend on Microsoft.Quantum.Development.Kit:

Package Downloads
Microsoft.Quantum.Canon
Microsoft's Quantum Core Libraries.

GitHub repositories (1)

Showing the top 1 popular GitHub repositories that depend on Microsoft.Quantum.Development.Kit:

Repository Stars
microsoft/qsharp-compiler
Q# compiler, command line tool, and Q# language server

Version History

Version Downloads Last updated
0.18.2106148911 182 6/25/2021
0.17.2105144881 165 6/1/2021
0.17.2105143879 122 5/26/2021
0.16.2105141895-beta 104 5/15/2021
0.16.2105140472 166 5/10/2021
0.16.2104138035 147 4/27/2021
0.15.2104136839-beta 124 4/19/2021
0.15.2104135508-beta 166 4/13/2021
0.15.2103133969 212 3/30/2021
0.15.2102129448 208 2/25/2021
0.15.2102128318 176 2/12/2021
0.15.2101126940 190 1/29/2021
0.15.2101125897 172 1/26/2021
0.14.2011120240 365 11/25/2020
0.14.2011120152-beta 228 11/25/2020
0.14.2011119823-beta 260 11/20/2020
0.14.2011119794-beta 213 11/19/2020
0.13.2011119705-beta 215 11/19/2020
0.13.2011119696-beta 207 11/19/2020
0.13.2011119625-beta 213 11/19/2020
0.13.20111004 271 11/10/2020
0.13.20102604 282 10/27/2020
0.12.20100504 475 10/5/2020
0.12.20100301 252 10/5/2020
0.12.20092803 281 9/29/2020
0.12.20082513 389 8/25/2020
0.12.20072031 498 7/21/2020
0.12.20070124 928 7/2/2020
0.11.2006.403 577 6/4/2020
0.11.2004.2825 49,351 4/29/2020
0.11.2003.3107 883 4/1/2020
0.11.2003.2506 365 3/26/2020
0.10.2002.2610 733 2/27/2020
0.10.2001.2831 705 1/29/2020
0.10.1912.1606-beta 577 12/18/2019
0.10.1912.501 2,915 12/5/2019
0.10.1911.1607 2,331 11/17/2019
0.10.1911.1606-beta 487 11/17/2019
0.10.1911.1602-beta 519 11/16/2019
0.10.1911.307 1,554 11/4/2019
0.10.1910.3107 1,390 11/1/2019
0.10.1910.2802-beta 563 10/29/2019
0.10.1910.1804-beta 805 10/18/2019
0.10.1910.1706-beta 364 10/17/2019
0.9.1909.3002 2,353 9/30/2019
0.9.1908.2906 1,872 8/29/2019
0.8.1908.202-beta 705 8/2/2019
0.8.1907.1701 3,872 7/18/2019
0.8.1906.2007-beta 1,273 6/21/2019
0.8.1906.1704-beta 779 6/17/2019
0.7.1905.3109 3,819 5/31/2019
0.7.1905.3102-beta 577 5/31/2019
0.7.1905.3003-beta 571 5/30/2019
0.7.1905.2303-beta 580 5/23/2019
0.7.1905.2101-beta 681 5/21/2019
0.7.1905.1603-beta 567 5/16/2019
0.6.1905.301 14,532 5/3/2019
0.6.1904.2601-beta 595 4/29/2019
0.5.1904.1302 7,869 4/15/2019
0.5.1903.2902 1,067 3/30/2019
0.5.1903.2703 1,751 3/27/2019
0.5.1903.2702 614 3/27/2019
0.5.1902.2802 1,619 2/28/2019
0.4.1901.3104 208,955 1/31/2019
0.4.1901.2905 727 1/30/2019
0.3.1811.2802-preview 24,309 11/28/2018
0.3.1811.1501-preview 20,647 11/20/2018
0.3.1811.203-preview 142,013 11/2/2018
0.3.1810.2508-preview 176,729 10/25/2018
0.2.1809.701-preview 282,314 9/7/2018
0.2.1806.3001-preview 310,453 6/30/2018
0.2.1806.2802-preview 291,702 6/29/2018
0.2.1806.1503-preview 399,265 6/20/2018
0.2.1802.2202-preview 26,547 2/23/2018
0.1.1801.1707-preview 2,321 1/17/2018
0.1.1712.901-preview 6,601 12/9/2017
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