Introduction to the Pipelines SDK
Beta
This Kubeflow component has beta status. See the Kubeflow versioning policies. The Kubeflow team is interested in your feedback about the usability of the feature.The Kubeflow Pipelines SDK provides a set of Python packages that you can use to specify and run your machine learning (ML) workflows. A pipeline is a description of an ML workflow, including all of the components that make up the steps in the workflow and how the components interact with each other.
SDK packages
The Kubeflow Pipelines SDK includes the following packages:
-
kfp.compiler
includes classes and methods for compiling pipeline Python DSL into a workflow yaml spec Methods in this package include, but are not limited to, the following:kfp.compiler.Compiler.compile
compiles your Python DSL code into a single static configuration (in YAML format) that the Kubeflow Pipelines service can process. The Kubeflow Pipelines service converts the static configuration into a set of Kubernetes resources for execution.
-
kfp.components
includes classes and methods for interacting with pipeline components. Methods in this package include, but are not limited to, the following:-
kfp.components.func_to_container_op
converts a Python function to a pipeline component and returns a factory function. You can then call the factory function to construct an instance of a pipeline task (ContainerOp
) that runs the original function in a container. -
kfp.components.load_component_from_file
loads a pipeline component from a file and returns a factory function. You can then call the factory function to construct an instance of a pipeline task (ContainerOp
) that runs the component container image. -
kfp.components.load_component_from_url
loads a pipeline component from a URL and returns a factory function. You can then call the factory function to construct an instance of a pipeline task (ContainerOp
) that runs the component container image.
-
-
kfp.dsl
contains the domain-specific language (DSL) that you can use to define and interact with pipelines and components. Methods, classes, and modules in this package include, but are not limited to, the following:-
kfp.dsl.PipelineParam
represents a pipeline parameter that you can pass from one pipeline component to another. See the guide to pipeline parameters. -
kfp.dsl.component
is a decorator for DSL functions that returns a pipeline component. (ContainerOp
). -
kfp.dsl.pipeline
is a decorator for Python functions that returns a pipeline. -
kfp.dsl.python_component
is a decorator for Python functions that adds pipeline component metadata to the function object. -
kfp.dsl.types
contains a list of types defined by the Kubeflow Pipelines SDK. Types include basic types likeString
,Integer
,Float
, andBool
, as well as domain-specific types likeGCPProjectID
andGCRPath
. See the guide to DSL static type checking. -
kfp.dsl.ResourceOp
represents a pipeline task (op) which lets you directly manipulate Kubernetes resources (create
,get
,apply
, …). -
kfp.dsl.VolumeOp
represents a pipeline task (op) which creates a newPersistentVolumeClaim
(PVC). It aims to make the common case of creating aPersistentVolumeClaim
fast. -
kfp.dsl.VolumeSnapshotOp
represents a pipeline task (op) which creates a newVolumeSnapshot
. It aims to make the common case of creating aVolumeSnapshot
fast. -
kfp.dsl.PipelineVolume
represents a volume used to pass data between pipeline steps.ContainerOp
s can mount aPipelineVolume
either via the constructor’s argumentpvolumes
oradd_pvolumes()
method. -
kfp.dsl.ParallelFor
represents a parallel for loop over a static or dynamic set of items in a pipeline. Each iteration of the for loop is executed in parallel. -
kfp.dsl.ExitHandler
represents an exit handler that is invoked upon exiting a pipeline. A typical usage ofExitHandler
is garbage collection. -
kfp.dsl.Condition
represents a group of ops, that will only be executed when a certain condition is met. The condition specified need to be determined at runtime, by incorporating at least one task output, or PipelineParam in the boolean expression.
-
-
kfp.Client
contains the Python client libraries for the Kubeflow Pipelines API. Methods in this package include, but are not limited to, the following:kfp.Client.create_experiment
creates a pipeline experiment and returns an experiment object.kfp.Client.run_pipeline
runs a pipeline and returns a run object.kfp.Client.create_run_from_pipeline_func
compiles a pipeline function and submits it for execution on Kubeflow Pipelines.kfp.Client.create_run_from_pipeline_package
runs a local pipeline package on Kubeflow Pipelines.kfp.Client.upload_pipeline
uploads a local file to create a new pipeline in Kubeflow Pipelines.kfp.Client.upload_pipeline_version
uploads a local file to create a pipeline version. Follow an example to learn more about creating a pipeline version
-
Kubeflow Pipelines extension modules include classes and functions for specific platforms on which you can use Kubeflow Pipelines. Examples include utility functions for on premises, Google Cloud Platform (GCP), Amazon Web Services (AWS), and Microsoft Azure.
-
Kubeflow Pipelines diagnose_me modulesinclude classes and functions that help with environment diagnostic tasks.
kfp.cli.diagnose_me.dev_env
reports on diagnostic metadata from your development environment, such as your python library version.kfp.cli.diagnose_me.kubernetes_cluster
reports on diagnostic data from your Kubernetes cluster, such as Kubernetes secrets.kfp.cli.diagnose_me.gcp
reports on diagnostic data related to your GCP environment.
Kubeflow Pipelines CLI tool
The Kubeflow Pipelines CLI tool enables you to use a subset of the Kubeflow Pipelines SDK directly from the command line. The Kubeflow Pipelines CLI tool provides the following commands:
-
kfp diagnose_me
runs environment diagnostic with specified parameters.--json
- Indicates that this command must return its results as JSON. Otherwise, results are returned in human readable format.--namespace TEXT
- Specifies the Kubernetes namespace to use. all-namespaces is the default value.--project-id TEXT
- For GCP deployments, this value specifies the GCP project to use. If this value is not specified, the environment default is used.
-
kfp pipeline <COMMAND>
provides the following commands to help you manage pipelines.get
- Gets detailed information about a Kubeflow pipeline from your Kubeflow Pipelines cluster.list
- Lists the pipelines that have been uploaded to your Kubeflow Pipelines cluster.upload
- Uploads a pipeline to your Kubeflow Pipelines cluster.
-
kfp run <COMMAND>
provides the following commands to help you manage pipeline runs.get
- Displays the details of a pipeline run.list
- Lists recent pipeline runs.submit
- Submits a pipeline run.
-
kfp --endpoint <ENDPOINT>
- Specifies the endpoint that the Kubeflow Pipelines CLI should connect to.
Installing the SDK
Follow the guide to installing the Kubeflow Pipelines SDK.
Building pipelines and components
This section summarizes the ways you can use the SDK to build pipelines and components:
- Creating components from existing application code
- Creating components within your application code
- Creating lightweight components
- Using prebuilt, reusuable components in your pipeline
The diagrams provide a conceptual guide to the relationships between the following concepts:
- Your Python code
- A pipeline component
- A Docker container image
- A pipeline
Creating components from existing application code
This section describes how to create a component and a pipeline outside your Python application, by creating components from existing containerized applications. This technique is useful when you have already created a TensorFlow program, for example, and you want to use it in a pipeline.
Below is a more detailed explanation of the above diagram:
-
Write your application code,
my-app-code.py
. For example, write code to transform data or train a model. -
Create a Docker container image that packages your program (
my-app-code.py
) and upload the container image to a registry. To build a container image based on a given Dockerfile, you can use the Docker command-line interface or thekfp.compiler.build_docker_image
method from the Kubeflow Pipelines SDK. -
Write a component function using the Kubeflow Pipelines DSL to define your pipeline’s interactions with the component’s Docker container. Your component function must return a
kfp.dsl.ContainerOp
. Optionally, you can use thekfp.dsl.component
decorator to enable static type checking in the DSL compiler. To use the decorator, you can add the@kfp.dsl.component
annotation to your component function:@kfp.dsl.component def my_component(my_param): ... return kfp.dsl.ContainerOp( name='My component name', image='gcr.io/path/to/container/image' )
-
Write a pipeline function using the Kubeflow Pipelines DSL to define the pipeline and include all the pipeline components. Use the
kfp.dsl.pipeline
decorator to build a pipeline from your pipeline function. To use the decorator, you can add the@kfp.dsl.pipeline
annotation to your pipeline function:@kfp.dsl.pipeline( name='My pipeline', description='My machine learning pipeline' ) def my_pipeline(param_1: PipelineParam, param_2: PipelineParam): my_step = my_component(my_param='a')
-
Compile the pipeline to generate a compressed YAML definition of the pipeline. The Kubeflow Pipelines service converts the static configuration into a set of Kubernetes resources for execution.
To compile the pipeline, you can choose one of the following options:
-
Use the
kfp.compiler.Compiler.compile
method:kfp.compiler.Compiler().compile(my_pipeline, 'my-pipeline.zip')
-
Alternatively, use the
dsl-compile
command on the command line.dsl-compile --py [path/to/python/file] --output my-pipeline.zip
-
-
Use the Kubeflow Pipelines SDK to run the pipeline:
client = kfp.Client() my_experiment = client.create_experiment(name='demo') my_run = client.run_pipeline(my_experiment.id, 'my-pipeline', 'my-pipeline.zip')
You can also choose to share your pipeline as follows:
- Upload the pipeline zip file to the Kubeflow Pipelines UI. For more information about the UI, see the Kubeflow Pipelines quickstart guide.
- Upload the pipeline zip file to a shared repository. See the reusable components and other shared resources.
More about the above workflow
For more detailed instructions, see the guide to building components and pipelines.
For an example, see the
xgboost-training-cm.py
pipeline sample on GitHub. The pipeline creates an XGBoost model using
structured data in CSV format.
Creating components within your application code
This section describes how to create a pipeline component inside your Python application, as part of the application. The DSL code for creating a component therefore runs inside your Docker container.
Below is a more detailed explanation of the above diagram:
-
Write your code in a Python function. For example, write code to transform data or train a model:
def my_python_func(a: str, b: str) -> str: ...
-
Use the
kfp.dsl.python_component
decorator to convert your Python function into a pipeline component. To use the decorator, you can add the@kfp.dsl.python_component
annotation to your function:@kfp.dsl.python_component( name='My awesome component', description='Come and play', ) def my_python_func(a: str, b: str) -> str: ...
-
Use
kfp.compiler.build_python_component
to create a container image for the component.my_op = compiler.build_python_component( component_func=my_python_func, staging_gcs_path=OUTPUT_DIR, target_image=TARGET_IMAGE)
-
Write a pipeline function using the Kubeflow Pipelines DSL to define the pipeline and include all the pipeline components. Use the
kfp.dsl.pipeline
decorator to build a pipeline from your pipeline function, by adding the@kfp.dsl.pipeline
annotation to your pipeline function:@kfp.dsl.pipeline( name='My pipeline', description='My machine learning pipeline' ) def my_pipeline(param_1: PipelineParam, param_2: PipelineParam): my_step = my_op(a='a', b='b')
-
Compile the pipeline to generate a compressed YAML definition of the pipeline. The Kubeflow Pipelines service converts the static configuration into a set of Kubernetes resources for execution.
To compile the pipeline, you can choose one of the following options:
-
Use the
kfp.compiler.Compiler.compile
method:kfp.compiler.Compiler().compile(my_pipeline, 'my-pipeline.zip')
-
Alternatively, use the
dsl-compile
command on the command line.dsl-compile --py [path/to/python/file] --output my-pipeline.zip
-
-
Use the Kubeflow Pipelines SDK to run the pipeline:
client = kfp.Client() my_experiment = client.create_experiment(name='demo') my_run = client.run_pipeline(my_experiment.id, 'my-pipeline', 'my-pipeline.zip')
You can also choose to share your pipeline as follows:
- Upload the pipeline zip file to the Kubeflow Pipelines UI. For more information about the UI, see the Kubeflow Pipelines quickstart guide.
- Upload the pipeline zip file to a shared repository. See the reusable components and other shared resources.
More about the above workflow
For an example of the above workflow, see the Jupyter notebook titled KubeFlow Pipelines container building on GitHub.Creating lightweight components
This section describes how to create lightweight Python components that do not require you to build a container image. Lightweight components simplify prototyping and rapid development, especially in a Jupyter notebook environment.
Below is a more detailed explanation of the above diagram:
-
Write your code in a Python function. For example, write code to transform data or train a model:
def my_python_func(a: str, b: str) -> str: ...
-
Use
kfp.components.func_to_container_op
to convert your Python function into a pipeline component:my_op = kfp.components.func_to_container_op(my_python_func)
Optionally, you can write the component to a file that you can share or use in another pipeline:
my_op = kfp.components.func_to_container_op(my_python_func, output_component_file='my-op.component')
-
If you stored your lightweight component in a file as described in the previous step, use
kfp.components.load_component_from_file
to load the component:my_op = kfp.components.load_component_from_file('my-op.component')
-
Write a pipeline function using the Kubeflow Pipelines DSL to define the pipeline and include all the pipeline components. Use the
kfp.dsl.pipeline
decorator to build a pipeline from your pipeline function, by adding the@kfp.dsl.pipeline
annotation to your pipeline function:@kfp.dsl.pipeline( name='My pipeline', description='My machine learning pipeline' ) def my_pipeline(param_1: PipelineParam, param_2: PipelineParam): my_step = my_op(a='a', b='b')
-
Compile the pipeline to generate a compressed YAML definition of the pipeline. The Kubeflow Pipelines service converts the static configuration into a set of Kubernetes resources for execution.
To compile the pipeline, you can choose one of the following options:
-
Use the
kfp.compiler.Compiler.compile
method:kfp.compiler.Compiler().compile(my_pipeline, 'my-pipeline.zip')
-
Alternatively, use the
dsl-compile
command on the command line.dsl-compile --py [path/to/python/file] --output my-pipeline.zip
-
-
Use the Kubeflow Pipelines SDK to run the pipeline:
client = kfp.Client() my_experiment = client.create_experiment(name='demo') my_run = client.run_pipeline(my_experiment.id, 'my-pipeline', 'my-pipeline.zip')
More about the above workflow
For more detailed instructions, see the guide to building lightweight components.
For an example, see the Lightweight Python components - basics notebook on GitHub.
Using prebuilt, reusable components in your pipeline
A reusable component is one that someone has built and made available for others to use. To use the component in your pipeline, you need the YAML file that defines the component.
Below is a more detailed explanation of the above diagram:
-
Find the YAML file that defines the reusable component. For example, take a look at the reusable components and other shared resources.
-
Use
kfp.components.load_component_from_url
to load the component:my_op = kfp.components.load_component_from_url('https://path/to/component.yaml')
-
Write a pipeline function using the Kubeflow Pipelines DSL to define the pipeline and include all the pipeline components. Use the
kfp.dsl.pipeline
decorator to build a pipeline from your pipeline function, by adding the@kfp.dsl.pipeline
annotation to your pipeline function:@kfp.dsl.pipeline( name='My pipeline', description='My machine learning pipeline' ) def my_pipeline(param_1: PipelineParam, param_2: PipelineParam): my_step = my_op(a='a', b='b')
-
Compile the pipeline to generate a compressed YAML definition of the pipeline. The Kubeflow Pipelines service converts the static configuration into a set of Kubernetes resources for execution.
To compile the pipeline, you can choose one of the following options:
-
Use the
kfp.compiler.Compiler.compile
method:kfp.compiler.Compiler().compile(my_pipeline, 'my-pipeline.zip')
-
Alternatively, use the
dsl-compile
command on the command line.dsl-compile --py [path/to/python/file] --output my-pipeline.zip
-
-
Use the Kubeflow Pipelines SDK to run the pipeline:
client = kfp.Client() my_experiment = client.create_experiment(name='demo') my_run = client.run_pipeline(my_experiment.id, 'my-pipeline', 'my-pipeline.zip')
More about the above workflow
For an example, see thexgboost-training-cm.py
pipeline sample on GitHub. The pipeline creates an XGBoost model using
structured data in CSV format.
Next steps
- Use pipeline parameters to pass data between components.
- Learn how to write recursive functions in the DSL.
- Build a reusable component for sharing in multiple pipelines.
- Find out how to use the DSL to manipulate Kubernetes resources dynamically as steps of your pipeline.
Feedback
Was this page helpful?
Glad to hear it! Please tell us how we can improve.
Sorry to hear that. Please tell us how we can improve.