Azure.AI.Inference 1.0.0-beta.2

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This is a prerelease version of Azure.AI.Inference.
dotnet add package Azure.AI.Inference --version 1.0.0-beta.2                
NuGet\Install-Package Azure.AI.Inference -Version 1.0.0-beta.2                
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<PackageReference Include="Azure.AI.Inference" Version="1.0.0-beta.2" />                
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paket add Azure.AI.Inference --version 1.0.0-beta.2                
#r "nuget: Azure.AI.Inference, 1.0.0-beta.2"                
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// Install Azure.AI.Inference as a Cake Addin
#addin nuget:?package=Azure.AI.Inference&version=1.0.0-beta.2&prerelease

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#tool nuget:?package=Azure.AI.Inference&version=1.0.0-beta.2&prerelease                

Azure Inference client library for .NET

The client Library (in preview) does inference, including chat completions, for AI models deployed by Azure AI Studio and Azure Machine Learning Studio. It supports Serverless API endpoints and Managed Compute endpoints (formerly known as Managed Online Endpoints). The client library makes services calls using REST API version 2024-05-01-preview, as documented in Azure AI Model Inference API. For more information see Overview: Deploy models, flows, and web apps with Azure AI Studio.

Use the model inference client library to:

  • Authenticate against the service
  • Get information about the model
  • Do chat completions

With some minor adjustments, this client library can also be configured to do inference for Azure OpenAI endpoints. See samples with azure_openai in their name, in the samples folder.

Product documentation | Samples | API reference documentation | Package (NuGet) | SDK source code

Getting started

Prerequisites

  • An Azure subscription.
  • An AI Model from the catalog deployed through Azure AI Studio.
  • To construct the client library, you will need to pass in the endpoint URL. The endpoint URL has the form https://your-host-name.your-azure-region.inference.ai.azure.com, where your-host-name is your unique model deployment host name and your-azure-region is the Azure region where the model is deployed (e.g. eastus2).
  • Depending on your model deployment and authentication preference, you either need a key to authenticate against the service, or Entra ID credentials. The key is a 32-character string.

Install the package

Install the client library for .NET with NuGet:

dotnet add package Azure.AI.Inference --prerelease

Authenticate the client

The package makes use of common Azure credential providers. To use credential providers provided with the Azure SDK, please install the Azure.Identity package:

dotnet add package Azure.Identity

Key concepts

Create and authenticate a client directly, using key

The package includes ChatCompletionsClient . It is created by providing your endpoint and credential information to the object:

var endpoint = new Uri(System.Environment.GetEnvironmentVariable("AZURE_AI_CHAT_ENDPOINT"));
var credential = new AzureKeyCredential(System.Environment.GetEnvironmentVariable("AZURE_AI_CHAT_KEY"));

var client = new ChatCompletionsClient(endpoint, credential, new AzureAIInferenceClientOptions());

Get AI model information

All clients provide a get_model_info method to retrive AI model information. This makes a REST call to the /info route on the provided endpoint, as documented in the REST API reference.

var endpoint = new Uri(System.Environment.GetEnvironmentVariable("AZURE_AI_CHAT_ENDPOINT"));
var credential = new AzureKeyCredential(System.Environment.GetEnvironmentVariable("AZURE_AI_CHAT_KEY"));

var client = new ChatCompletionsClient(endpoint, credential, new AzureAIInferenceClientOptions());
Response<ModelInfo> modelInfo = client.GetModelInfo();

Console.WriteLine($"Model name: {modelInfo.Value.ModelName}");
Console.WriteLine($"Model type: {modelInfo.Value.ModelType}");
Console.WriteLine($"Model provider name: {modelInfo.Value.ModelProviderName}");

AI model information is cached in the client, and futher calls to get_model_info will access the cached value and wil not result in a REST API call.

Chat Completions

The ChatCompletionsClient has a method named complete. The method makes a REST API call to the /chat/completions route on the provided endpoint, as documented in the REST API reference.

See simple chat completion examples below. More can be found in the samples folder.

Text Embeddings

The EmbeddingsClient has a method named embed. The method makes a REST API call to the /embeddings route on the provided endpoint, as documented in the REST API reference.

See simple text embedding example below. More can be found in the samples folder.

Sending proprietary model parameters

The REST API defines common model parameters for chat completions. If the model you are targeting has additional parameters you would like to set, the client library allows you easily do so. See Chat completions with additional model-specific parameters.

Inference using Azure OpenAI endpoints

The request and response payloads of the Azure AI Model Inference API is mostly compatible with OpenAI REST APIs for chat completions. Therefore, with some minor adjustments, this client library can be configured to do inference using Azure OpenAI endpoints. See samples with azure_openai in their name, in the samples folder, and the comments there.

Thread safety

We guarantee that all client instance methods are thread-safe and independent of each other (guideline). This ensures that the recommendation of reusing client instances is always safe, even across threads.

Additional concepts

Client options | Accessing the response | Long-running operations | Handling failures | Diagnostics | Mocking | Client lifetime

Examples

In the following sections you will find simple examples of:

The examples create a client as mentioned in Create and authenticate a client directly, using key. Only mandatory input settings are shown for simplicity.

See the Samples folder for full working samples for synchronous and asynchronous handling.

Chat completions example

This example demonstrates how to generate a single chat completions, with key authentication.

var endpoint = new Uri(System.Environment.GetEnvironmentVariable("AZURE_AI_CHAT_ENDPOINT"));
var credential = new AzureKeyCredential(System.Environment.GetEnvironmentVariable("AZURE_AI_CHAT_KEY"));

var client = new ChatCompletionsClient(endpoint, credential, new AzureAIInferenceClientOptions());

var requestOptions = new ChatCompletionsOptions()
{
    Messages =
    {
        new ChatRequestSystemMessage("You are a helpful assistant."),
        new ChatRequestUserMessage("How many feet are in a mile?"),
    },
};

Response<ChatCompletions> response = client.Complete(requestOptions);
System.Console.WriteLine(response.Value.Content);

The following types or messages are supported: SystemMessage,UserMessage, AssistantMessage, ToolMessage. See also samples:

Alternatively, you can read a BinaryData object based on a JSON string instead of using the strongly typed classes like ChatRequestSystemMessage and ChatRequestUserMessage:

var endpoint = new Uri(System.Environment.GetEnvironmentVariable("AZURE_AI_CHAT_ENDPOINT"));
var credential = new AzureKeyCredential(System.Environment.GetEnvironmentVariable("AZURE_AI_CHAT_KEY"));

var client = new ChatCompletionsClient(endpoint, credential, new AzureAIInferenceClientOptions());

var requestOptions = new ChatCompletionsOptions()
{
    Messages =
    {
        new ChatRequestSystemMessage("You are a helpful assistant."),
        new ChatRequestUserMessage("How many feet are in a mile?"),
    },
};

string jsonMessages = "{\"messages\": [{\"role\": \"system\", \"content\": \"You are a helpful assistant.\"}, {\"role\": \"user\", \"content\": \"How many feet are in a mile?\"}]}";
BinaryData messages = BinaryData.FromString(jsonMessages);
requestOptions = ModelReaderWriter.Read<ChatCompletionsOptions>(messages);

Response<ChatCompletions> response = client.Complete(requestOptions);
System.Console.WriteLine(response.Value.Content);

To generate completions for additional messages, simply call client.Complete multiple times using the same client.

Streaming chat completions example

This example demonstrates how to generate a single chat completions with streaming response, with key authentication.

var endpoint = new Uri(System.Environment.GetEnvironmentVariable("AZURE_AI_CHAT_ENDPOINT"));
var credential = new AzureKeyCredential(System.Environment.GetEnvironmentVariable("AZURE_AI_CHAT_KEY"));

var client = new ChatCompletionsClient(endpoint, credential, new AzureAIInferenceClientOptions());

var requestOptions = new ChatCompletionsOptions()
{
    Messages =
    {
        new ChatRequestSystemMessage("You are a helpful assistant."),
        new ChatRequestUserMessage("How many feet are in a mile?"),
    },
};

StreamingResponse<StreamingChatCompletionsUpdate> response = await client.CompleteStreamingAsync(requestOptions);

StringBuilder contentBuilder = new();
await foreach (StreamingChatCompletionsUpdate chatUpdate in response)
{
    if (!string.IsNullOrEmpty(chatUpdate.ContentUpdate))
    {
        contentBuilder.Append(chatUpdate.ContentUpdate);
    }
}

System.Console.WriteLine(contentBuilder.ToString());

In the above foreach loop, the updates are progressively added to a string builder as they are streamed in, and then printed out once complete. The updates could be printed as they come in as well.

To generate completions for additional messages, simply call client.complete multiple times using the same client.

Chat completions with additional model-specific parameters

In this example, extra JSON elements are inserted at the root of the request body by setting AdditonalProperties when calling the Complete method. These are intended for AI models that require extra parameters beyond what is defined in the REST API.

Note that by default, the service will reject any request payload that includes unknown parameters (ones that are not defined in the REST API Request Body table). In order to change the default service behaviour, when the Complete method includes AdditonalProperties, the client library will automatically add the HTTP request header "unknown_params": "pass-through".

Azure_AI_Inference_ChatCompletionsWithAdditionalPropertiesScenario

var endpoint = new Uri(System.Environment.GetEnvironmentVariable("AZURE_AI_CHAT_ENDPOINT"));
var credential = new AzureKeyCredential(System.Environment.GetEnvironmentVariable("AZURE_AI_CHAT_KEY"));

var client = new ChatCompletionsClient(endpoint, credential, new AzureAIInferenceClientOptions());

var requestOptions = new ChatCompletionsOptions()
{
    Messages =
    {
        new ChatRequestSystemMessage("You are a helpful assistant."),
        new ChatRequestUserMessage("How many feet are in a mile?"),
    },
    AdditionalProperties = { { "foo", BinaryData.FromString("\"bar\"") } }, // Optional, add additional properties to the request to pass to the model
};
Response<ChatCompletions> response = client.Complete(requestOptions);
System.Console.WriteLine(response.Value.Choices[0].Message.Content);

Text Embeddings example

This example demonstrates how to get text embeddings, with key authentication, assuming endpoint and key are already defined.

var endpoint = new Uri(System.Environment.GetEnvironmentVariable("AZURE_AI_EMBEDDINGS_ENDPOINT"));
var credential = new AzureKeyCredential(System.Environment.GetEnvironmentVariable("AZURE_AI_EMBEDDINGS_KEY"));

var client = new EmbeddingsClient(endpoint, credential, new AzureAIInferenceClientOptions());

var input = new List<string> { "King", "Queen", "Jack", "Page" };
var requestOptions = new EmbeddingsOptions(input);

Response<EmbeddingsResult> response = client.Embed(requestOptions);
foreach (EmbeddingItem item in response.Value.Data)
{
    List<float> embedding = item.Embedding.ToObjectFromJson<List<float>>();
    Console.WriteLine($"Index: {item.Index}, Embedding: <{string.Join(", ", embedding)}>");
}

The length of the embedding vector depends on the model, but you should see something like this:

data[0]: length=1024, [0.0013399124, -0.01576233, ..., 0.007843018, 0.000238657]
data[1]: length=1024, [0.036590576, -0.0059547424, ..., 0.011405945, 0.004863739]
data[2]: length=1024, [0.04196167, 0.029083252, ..., -0.0027484894, 0.0073127747]

To generate embeddings for additional phrases, simply call client.embed multiple times using the same client.

Troubleshooting

Observability with OpenTelemetry

Azure AI Inference client library supports tracing and metrics with OpenTelemetry. Refer to Azure SDK Diagnostics documentation for general information on OpenTelemetry support in Azure client libraries.

Distributed tracing and metrics with OpenTelemetry are supported in Azure AI Inference in experimental mode and could be enabled through either of these steps:

  • Set the AZURE_EXPERIMENTAL_ENABLE_ACTIVITY_SOURCE environment variable to true.
  • Set the Azure.Experimental.EnableActivitySource context switch to true in your application code

Refer to Azure Monitor documentation on how to use Azure Monitor OpenTelemetry Distro.

[!NOTE] With the Azure Monitor OpenTelemetry Distro, you only need to opt-into Azure SDK experimental telemetry features with one of the ways documented at the beginning of this section. The distro enables activity sources and meters for Azure AI Inference automatically.

The following section provides an example on how to configure OpenTelemetry and enable Azure AI Inference tracing and metrics if your OpenTelemetry distro does not include Azure AI Inference by default.

Generic OpenTelemetry configuration

In this example we're going to export traces and metrics to console, and to the local OTLP destination. Aspire dashboard can be used for local testing and exploration.

To run this example, you'll need to install the following dependencies (HTTP tracing and metrics instrumentation as well as console and OTLP exporters):

dotnet add package OpenTelemetry.Instrumentation.Http
dotnet add package OpenTelemetry.Exporter.Console
dotnet add package OpenTelemetry.Exporter.OpenTelemetryProtocol

These packages also bring OpenTelemetry SDK as a dependency.

// Enables experimental Azure SDK observability
AppContext.SetSwitch("Azure.Experimental.EnableActivitySource", true);

// By default instrumentation captures chat messages without content
// since content can be very verbose and have sensitive information.
// The following AppContext switch enables content recording.
AppContext.SetSwitch("Azure.Experimental.TraceGenAIMessageContent", true);

using var tracerProvider = Sdk.CreateTracerProviderBuilder()
    .AddHttpClientInstrumentation()
    .AddSource("Azure.AI.Inference.*")
    .ConfigureResource(r => r.AddService("sample"))
    .AddConsoleExporter()
    .AddOtlpExporter()
    .Build();

using var meterProvider = Sdk.CreateMeterProviderBuilder()
    .AddHttpClientInstrumentation()
    .AddMeter("Azure.AI.Inference.*")
    .ConfigureResource(r => r.AddService("sample"))
    .AddConsoleExporter()
    .AddOtlpExporter()
    .Build();

Check out OpenTelemetry .NET and your observability provider documentation on how to configure OpenTelemetry.

Exceptions

The complete, get_model_info methods raise a RequestFailedException for a non-success HTTP status code response from the service. The exception's code will hold the HTTP response status code. The exception's message contains a detailed message that may be helpful in diagnosing the issue:

try
{
    client.Complete(requestOptions);
}
catch (RequestFailedException e)
{
    Console.WriteLine($"Exception status code: {e.Status}");
    Console.WriteLine($"Exception message: {e.Message}");
    Assert.IsTrue(e.Message.Contains("Extra inputs are not permitted"));
}

Reporting issues

To report issues with the client library, or request additional features, please open a GitHub issue here

Next steps

Have a look at the Samples folder, containing fully runnable C# code for doing inference using synchronous and asynchronous methods.

Contributing

This project welcomes contributions and suggestions. Most contributions require you to agree to a Contributor License Agreement (CLA) declaring that you have the right to, and actually do, grant us the rights to use your contribution. For details, visit https://cla.microsoft.com.

When you submit a pull request, a CLA-bot will automatically determine whether you need to provide a CLA and decorate the PR appropriately (e.g., label, comment). Simply follow the instructions provided by the bot. You will only need to do this once across all repos using our CLA.

This project has adopted the Microsoft Open Source Code of Conduct. For more information, see the Code of Conduct FAQ or contact opencode@microsoft.com with any additional questions or comments.

Product Compatible and additional computed target framework versions.
.NET net5.0 was computed.  net5.0-windows was computed.  net6.0 was computed.  net6.0-android was computed.  net6.0-ios was computed.  net6.0-maccatalyst was computed.  net6.0-macos was computed.  net6.0-tvos was computed.  net6.0-windows was computed.  net7.0 was computed.  net7.0-android was computed.  net7.0-ios was computed.  net7.0-maccatalyst was computed.  net7.0-macos was computed.  net7.0-tvos was computed.  net7.0-windows was computed.  net8.0 was computed.  net8.0-android was computed.  net8.0-browser was computed.  net8.0-ios was computed.  net8.0-maccatalyst was computed.  net8.0-macos was computed.  net8.0-tvos was computed.  net8.0-windows was computed. 
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