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Event-driven scaling in Azure Functions

In the Consumption, Flex Consumption, and Premium plans, Azure Functions scales resources by adding more instances based on the number of events that trigger a function.

Important

The Flex Consumption plan is currently in preview.

The way in which your function app scales depends on the hosting plan:

  • Consumption plan: Each instance of the Functions host in the Consumption plan is limited, typically to 1.5 GB of memory and one CPU. An instance of the host supports the entire function app. As such, all functions within a function app share resource in an instance are scaled at the same time. When function apps share the same Consumption plan, they're still scaled independently.

  • Flex Consumption plan: The plan uses a deterministic per-function scaling strategy, where each function is scaled independently, except for HTTP, Blob, and Durable Functions triggered functions which scale in their own groups. For more information, see Per-function scaling. These instances are then scaled based on the concurrency of your requests.

  • Premium plan: The specific size of the Premium plan determines the available memory and CPU for all apps in that plan on that instance. The plan scales out its instances based on the scaling needs of the apps in the plan, and the apps scale within the plan as needed.

Function code files are stored on Azure Files shares on the function's main storage account. When you delete the main storage account of the function app, the function code files are deleted and can't be recovered.

Runtime scaling

Azure Functions uses a component called the scale controller to monitor the rate of events and determine whether to scale out or scale in. The scale controller uses heuristics for each trigger type. For example, when you're using an Azure Queue storage trigger, it uses target-based scaling.

The unit of scale for Azure Functions is the function app. When the function app is scaled out, more resources are allocated to run multiple instances of the Azure Functions host. Conversely, as compute demand is reduced, the scale controller removes function host instances. The number of instances is eventually "scaled in" when no functions are running within a function app.

Scale controller monitoring events and creating instances

Cold Start

Should your function app become idle for a few minutes, the platform might decide to scale the number of instances on which your app runs down to zero. The next request has the added latency of scaling from zero to one. This latency is referred to as a cold start. The number of dependencies required by your function app can affect the cold start time. Cold start is more of an issue for synchronous operations, such as HTTP triggers that must return a response. If cold starts are impacting your functions, consider using a plan other than the Consumption. The other plans offer these strategies to mitigate or eliminate cold starts:

  • Premium plan: supports both prewarmed instances and always ready instances, with a minimum of one instance.

  • Flex Consumption plan: supports an optional number of always ready instances, which can be defined on a per instance scaling basis.

  • Dedicated plan: the plan itself doesn't scale dynamically, but you can run your app continuously with the Always on setting is enabled.

Understanding scaling behaviors

Scaling can vary based on several factors, and apps scale differently based on the triggers and language selected. There are a few intricacies of scaling behaviors to be aware of:

  • Maximum instances: A single function app only scales out to a maximum allowed by the plan. However, a single instance can process more than one message or request at a time. You can specify a lower maximum to throttle scale as required.
  • New instance rate: For HTTP triggers, new instances are allocated, at most, once per second. For non-HTTP triggers, new instances are allocated, at most, once every 30 seconds. Scaling is faster when running in a Premium plan.
  • Target-based scaling: Target-based scaling provides a fast and intuitive scaling model for customers and is currently supported for Service Bus queues and topics, Storage queues, Event Hubs, Apache Kafka, and Azure Cosmos DB extensions. Make sure to review target-based scaling to understand their scaling behavior.
  • Per-function scaling: With some notable exceptions, functions running in the Flex Consumption plan scale on independent instances. The exceptions include HTTP triggers and Blob storage (Event Grid) triggers. Each of these trigger types scale together as a group on the same instances. Likewise, all Durable Functions triggers also share instances and scale together. For more information, see per-function scaling.
  • Maximum monitored triggers: Currently, the scale controller can only monitor up to 100 triggers to making scaling decisions. When your app has more than 100 event-based triggers, scale decisions are made based on only the first 100 triggers that execute. For more information, see Best practices and patterns for scalable apps.

Limit scale-out

You might decide to restrict the maximum number of instances an app can use for scale-out. This is most common for cases where a downstream component like a database has limited throughput. For the maximum scale limits when running the various hosting plans, see Scale limits.

Flex Consumption plan

By default, apps running in a Flex Consumption plan have limit of 100 overall instances. Currently the lowest maximum instance count value is 40, and the highest supported maximum instance count value is 1000. When you use the az functionapp create command to create a function app in the Flex Consumption plan, use the --maximum-instance-count parameter to set this maximum instance count for of your app.

Note that while you can change the maximum instance count of Flex Consumption apps up to 1000, your apps will reach a quota limit before reaching that number. Review Regional subscription memory quotas for more details.

This example creates an app with a maximum instance count of 200:

az functionapp create --resource-group <RESOURCE_GROUP> --name <APP_NAME> --storage <STORAGE_ACCOUNT_NAME> --runtime <LANGUAGE_RUNTIME> --runtime-version <RUNTIME_VERSION> --flexconsumption-location <REGION> --maximum-instance-count 200

This example uses the az functionapp scale config set command to change the maximum instance count for an existing app to 150:

az functionapp scale config set --resource-group <RESOURCE_GROUP> --name <APP_NAME> --maximum-instance-count 150

Consumption/Premium plans

In a Consumption or Elastic Premium plan, you can specify a lower maximum limit for your app by modifying the value of the functionAppScaleLimit site configuration setting. The functionAppScaleLimit can be set to 0 or null for unrestricted, or a valid value between 1 and the app maximum.

az resource update --resource-type Microsoft.Web/sites -g <RESOURCE_GROUP> -n <FUNCTION_APP-NAME>/config/web --set properties.functionAppScaleLimit=<SCALE_LIMIT>

Scale-in behaviors

Event-driven scaling automatically reduces capacity when demand for your functions is reduced. It does this by draining instances of their current function executions and then removes those instances. This behavior is logged as drain mode. The grace period for functions that are currently executing can extend up to 10 minutes for Consumption plan apps and up to 60 minutes for Flex Consumption and Premium plan apps. Event-driven scaling and this behavior don't apply to Dedicated plan apps.

The following considerations apply for scale-in behaviors:

  • For app running on Windows in a Consumption plan, only apps created after May 2021 have drain mode behaviors enabled by default.
  • To enable graceful shutdown for functions using the Service Bus trigger, use version 4.2.0 or a later version of the Service Bus Extension.

Per-function scaling

Applies only to the Flex Consumption plan (preview).

The Flex Consumption plan is unique in that it implements a per-function scaling behavior. In per-function scaling, except for HTTP triggers, Blob (Event Grid) triggers, and Durable Functions, all other function trigger types in your app scale on independent instances. HTTP triggers in your app all scale together as a group on the same instances, as do all Blob (Event Grid), and all Durable Functions triggers, which have their own shared instances.

Consider a function app hosted a Flex Consumption plan that has these function:

function1 function2 function3 function4 function5 function6 function7
HTTP trigger HTTP trigger Orchestration trigger (Durable) Activity trigger (Durable) Service Bus trigger Service Bus trigger Event Hubs trigger

In this example:

Best practices and patterns for scalable apps

There are many aspects of a function app that impacts how it scales, including host configuration, runtime footprint, and resource efficiency. For more information, see the scalability section of the performance considerations article. You should also be aware of how connections behave as your function app scales. For more information, see How to manage connections in Azure Functions.

If your app has more than 100 functions that use event-based triggers, consider breaking the app into one or more apps, where each app has less than 100 event-based functions.

For more information on scaling in Python and Node.js, see Azure Functions Python developer guide - Scaling and concurrency and Azure Functions Node.js developer guide - Scaling and concurrency.

Next steps

To learn more, see the following articles: