To run the LLM prompts and semantic functions in the examples below, make sure you have an OpenAI API Key or Azure OpenAI Service Key.
Here is a quick example of how to use Semantic Kernel from a C# console app.
First, let's create a new project, targeting .NET 6 or newer, and add the
Microsoft.SemanticKernel
nuget package to your project from the command prompt
in Visual Studio:
dotnet add package Microsoft.SemanticKernel --prerelease
Copy and paste the following code into your project, with your Azure OpenAI key in hand:
using Microsoft.SemanticKernel;
using Microsoft.SemanticKernel.Connectors.AI.OpenAI;
var builder = new KernelBuilder();
builder.WithAzureChatCompletionService(
"gpt-35-turbo", // Azure OpenAI Deployment Name
"https://contoso.openai.azure.com/", // Azure OpenAI Endpoint
"...your Azure OpenAI Key..."); // Azure OpenAI Key
// Alternative using OpenAI
//builder.WithOpenAIChatCompletionService(
// "gpt-3.5-turbo", // OpenAI Model name
// "...your OpenAI API Key..."); // OpenAI API Key
var kernel = builder.Build();
var prompt = @"{{$input}}
One line TLDR with the fewest words.";
var summarize = kernel.CreateSemanticFunction(prompt, requestSettings: new OpenAIRequestSettings { MaxTokens = 100 });
string text1 = @"
1st Law of Thermodynamics - Energy cannot be created or destroyed.
2nd Law of Thermodynamics - For a spontaneous process, the entropy of the universe increases.
3rd Law of Thermodynamics - A perfect crystal at zero Kelvin has zero entropy.";
string text2 = @"
1. An object at rest remains at rest, and an object in motion remains in motion at constant speed and in a straight line unless acted on by an unbalanced force.
2. The acceleration of an object depends on the mass of the object and the amount of force applied.
3. Whenever one object exerts a force on another object, the second object exerts an equal and opposite on the first.";
Console.WriteLine(await kernel.RunAsync(text1, summarize));
Console.WriteLine(await kernel.RunAsync(text2, summarize));
// Output:
// Energy conserved, entropy increases, zero entropy at 0K.
// Objects move in response to forces.
The previous code shows how to invoke individual semantic functions, but you can also chain functions (aka prompt chaining) to process the initial input with multiple operations.
The following code for example, translates an initial text to math symbols and then generates a summary:
string translationPrompt = @"{{$input}}
Translate the text to math.";
string summarizePrompt = @"{{$input}}
Give me a TLDR with the fewest words.";
var translator = kernel.CreateSemanticFunction(translationPrompt, requestSettings: new OpenAIRequestSettings { MaxTokens = 200 });
var summarize = kernel.CreateSemanticFunction(summarizePrompt, requestSettings: new OpenAIRequestSettings { MaxTokens = 100 });
string inputText = @"
1st Law of Thermodynamics - Energy cannot be created or destroyed.
2nd Law of Thermodynamics - For a spontaneous process, the entropy of the universe increases.
3rd Law of Thermodynamics - A perfect crystal at zero Kelvin has zero entropy.";
// Run two prompts in sequence (prompt chaining)
var output = await kernel.RunAsync(inputText, translator, summarize);
Console.WriteLine(output);
// Output: ΔE = 0, ΔSuniv > 0, S = 0 at 0K.
The repository contains also a few C# Jupyter notebooks that demonstrates how to get started with the Semantic Kernel.
See here for the full list, with requirements and setup instructions.
- Getting started
- Loading and configuring Semantic Kernel
- Running AI prompts from file
- Creating Semantic Functions at runtime (i.e. inline functions)
- Using Context Variables to Build a Chat Experience
- Creating and Executing Plans
- Building Memory with Embeddings
- Creating images with DALL-E 2
- Chatting with ChatGPT and Images
Semantic Kernel provides a set of nuget packages to allow extending the core with more features, such as connectors to services and plugins to perform specific actions. Unless you need to optimize which packages to include in your app, you will usually start by installing this meta-package first:
- Microsoft.SemanticKernel
This meta package includes core packages and OpenAI connectors, allowing to run most samples and build apps with OpenAI and Azure OpenAI.
Packages included in Microsoft.SemanticKernel:
- Microsoft.SemanticKernel.Abstractions: contains common interfaces and classes used by the core and other SK components.
- Microsoft.SemanticKernel.Core: contains the core logic of SK, such as prompt engineering, semantic memory and semantic functions definition and orchestration.
- Microsoft.SemanticKernel.Connectors.AI.OpenAI: connectors to OpenAI and Azure OpenAI, allowing to run semantic functions, chats, image generation with GPT3, GPT3.5, GPT4, DALL-E2.
Other SK packages available at nuget.org:
- Microsoft.SemanticKernel.Connectors.Memory.Qdrant: Qdrant connector for plugins and semantic memory.
- Microsoft.SemanticKernel.Connectors.Memory.Sqlite: SQLite connector for plugins and semantic memory
- Microsoft.SemanticKernel.Plugins.Document: Document Plugin: Word processing, OpenXML, etc.
- Microsoft.SemanticKernel.Plugins.MsGraph: Microsoft Graph Plugin: access your tenant data, schedule meetings, send emails, etc.
- Microsoft.SemanticKernel.Plugins.OpenAPI: OpenAPI Plugin.
- Microsoft.SemanticKernel.Plugins.Web: Web Plugin: search the web, download files, etc.
- Microsoft.SemanticKernel.Reliability.Polly: Extension for http resiliency.