Develop a Custom Step Operator
Learning how to develop a custom step operator.
Last updated
Learning how to develop a custom step operator.
Last updated
Before diving into the specifics of this component type, it is beneficial to familiarize yourself with our . This guide provides an essential understanding of ZenML's component flavor concepts.
The BaseStepOperator is the abstract base class that needs to be subclassed in order to run specific steps of your pipeline in a separate environment. As step operators can come in many shapes and forms, the base class exposes a deliberately basic and generic interface:
If you want to create your own custom flavor for a step operator, you can follow the following steps:
Create a class that inherits from the BaseStepOperator class and implement the abstract launch method. This method has two main responsibilities:
Preparing a suitable execution environment (e.g. a Docker image): The general environment is highly dependent on the concrete step operator implementation, but for ZenML to be able to run the step it requires you to install some pip dependencies. The list of requirements needed to successfully execute the step can be found via the Docker settings info.pipeline.docker_settings passed to the launch() method. Additionally, you'll have to make sure that all the source code of your ZenML step and pipeline are available within this execution environment.
Running the entrypoint command: Actually running a single step of a pipeline requires knowledge of many ZenML internals and is implemented in the zenml.step_operators.step_operator_entrypoint_configuration module. As long as your environment was set up correctly (see the previous bullet point), you can run the step using the command provided via the entrypoint_command argument of the launch() method.
If your step operator allows the specification of per-step resources, make sure to handle the resources defined on the step (info.config.resource_settings) that was passed to the launch() method.
If you need to provide any configuration, create a class that inherits from the BaseStepOperatorConfig class adds your configuration parameters.
Bring both the implementation and the configuration together by inheriting from the BaseStepOperatorFlavor class. Make sure that you give a name to the flavor through its abstract property.
Once you are done with the implementation, you can register it through the CLI. Please ensure you point to the flavor class via dot notation:
For example, if your flavor class MyStepOperatorFlavor is defined in flavors/my_flavor.py, you'd register it by doing:
If ZenML does not find an initialized ZenML repository in any parent directory, it will default to the current working directory, but usually, it's better to not have to rely on this mechanism and initialize zenml at the root.
Afterward, you should see the new flavor in the list of available flavors:
It is important to draw attention to when and how these base abstractions are coming into play in a ZenML workflow.
The CustomStepOperatorFlavor class is imported and utilized upon the creation of the custom flavor through the CLI.
The CustomStepOperatorConfig class is imported when someone tries to register/update a stack component with this custom flavor. Especially, during the registration process of the stack component, the config will be used to validate the values given by the user. As Config objects are inherently pydantic objects, you can also add your own custom validators here.
The CustomStepOperator only comes into play when the component is ultimately in use.
The design behind this interaction lets us separate the configuration of the flavor from its implementation. This way we can register flavors and components even when the major dependencies behind their implementation are not installed in our local setting (assuming the CustomStepOperatorFlavor and the CustomStepOperatorConfig are implemented in a different module/path than the actual CustomStepOperator).
This is a slimmed-down version of the base implementation which aims to highlight the abstraction layer. In order to see the full implementation and get the complete docstrings, please check the .
ZenML resolves the flavor class by taking the path where you initialized zenml (via zenml init) as the starting point of resolution. Therefore, please ensure you follow of initializing zenml at the root of your repository.
Note that if you wish to use your custom step operator to run steps on a GPU, you will need to follow to ensure that it works. It requires adding some extra settings customization and is essential to enable CUDA for the GPU to give its full acceleration.
