This tutorial shows you how to use GPUs on Dataflow to process Landsat 8 satellite images and render them as JPEG files. The tutorial is based on the example Processing Landsat satellite images with GPUs.
Objectives
- Build a Docker image for Dataflow that has TensorFlow with GPU support.
- Run a Dataflow job with GPUs.
Costs
This tutorial uses billable components of Google Cloud, including:
- Cloud Storage
- Dataflow
- Artifact Registry
Use the pricing calculator to generate a cost estimate based on your projected usage.
Before you begin
To initialize the gcloud CLI, run the following command:
Create or select a Google Cloud project. Create a Google Cloud project: Replace Select the Google Cloud project that you created: Replace
Make sure that billing is enabled for your Google Cloud project.
Enable the Dataflow, Cloud Build, and Artifact Registry APIs:
If you're using a local shell, then create local authentication credentials for your user
account:
You don't need to do this if you're using Cloud Shell.
Grant roles to your user account. Run the following command once for each of the following
IAM roles:
Replace
To initialize the gcloud CLI, run the following command:
Create or select a Google Cloud project. Create a Google Cloud project: Replace Select the Google Cloud project that you created: Replace
Make sure that billing is enabled for your Google Cloud project.
Enable the Dataflow, Cloud Build, and Artifact Registry APIs:
If you're using a local shell, then create local authentication credentials for your user
account:
You don't need to do this if you're using Cloud Shell.
Grant roles to your user account. Run the following command once for each of the following
IAM roles:
Replace Grant roles to your Compute Engine default service account. Run the following command once
for each of the following IAM roles:
gcloud init
gcloud projects create PROJECT_ID
PROJECT_ID
with a name for the Google Cloud project you are creating.gcloud config set project PROJECT_ID
PROJECT_ID
with your Google Cloud project name.gcloud services enable dataflow
gcloud auth application-default login
roles/iam.serviceAccountUser
gcloud projects add-iam-policy-binding PROJECT_ID --member="user:USER_IDENTIFIER" --role=ROLE
PROJECT_ID
with your project ID.USER_IDENTIFIER
with the identifier for your user
account.
For example, user:myemail@example.com
.ROLE
with each individual role.gcloud init
gcloud projects create PROJECT_ID
PROJECT_ID
with a name for the Google Cloud project you are creating.gcloud config set project PROJECT_ID
PROJECT_ID
with your Google Cloud project name.gcloud services enable dataflow
gcloud auth application-default login
roles/iam.serviceAccountUser
gcloud projects add-iam-policy-binding PROJECT_ID --member="user:USER_IDENTIFIER" --role=ROLE
PROJECT_ID
with your project ID.USER_IDENTIFIER
with the identifier for your user
account.
For example, user:myemail@example.com
.ROLE
with each individual role.roles/dataflow.admin
,
roles/dataflow.worker
, roles/bigquery.dataEditor
,
roles/pubsub.editor
, roles/storage.objectAdmin
,
and roles/artifactregistry.reader
.gcloud projects add-iam-policy-binding PROJECT_ID --member="serviceAccount:PROJECT_NUMBER-compute@developer.gserviceaccount.com" --role=SERVICE_ACCOUNT_ROLE
PROJECT_ID
with your project ID.PROJECT_NUMBER
with your project number.
To find your project number, see Identify projects.SERVICE_ACCOUNT_ROLE
with each individual role.
Prepare your working environment
Download the starter files, and then create your Artifact Registry repository.
Download the starter files
Download the starter files and then change directories.
Clone the
python-docs-samples
repository.git clone https://github.com/GoogleCloudPlatform/python-docs-samples.git
Navigate to the sample code directory.
cd python-docs-samples/dataflow/gpu-examples/tensorflow-landsat
Configure Artifact Registry
Create an Artifact Registry repository so that you can upload artifacts. Each repository can contain artifacts for a single supported format.
All repository content is encrypted using either Google-owned and Google-managed keys or customer-managed encryption keys. Artifact Registry uses Google-owned and Google-managed keys by default and no configuration is required for this option.
You must have at least Artifact Registry Writer access to the repository.
Run the following command to create a new repository. The command uses the
--async
flag and returns immediately, without waiting for the operation in
progress to complete.
gcloud artifacts repositories create REPOSITORY \
--repository-format=docker \
--location=LOCATION \
--async
Replace REPOSITORY with a name for your repository. For each repository location in a project, repository names must be unique.
Before you can push or pull images, configure Docker to authenticate requests for Artifact Registry. To set up authentication to Docker repositories, run the following command:
gcloud auth configure-docker LOCATION-docker.pkg.dev
The command updates your Docker configuration. You can now connect with Artifact Registry in your Google Cloud project to push images.
Build the Docker image
Cloud Build allows you to build a Docker image using a Dockerfile and save it into Artifact Registry, where the image is accessible to other Google Cloud products.
Build the container image by using the
build.yaml
config file.
gcloud builds submit --config build.yaml
Run the Dataflow job with GPUs
The following code block demonstrates how to launch this Dataflow pipeline with GPUs.
We run the Dataflow pipeline using the
run.yaml
config file.
export PROJECT=PROJECT_NAME
export BUCKET=BUCKET_NAME
export JOB_NAME="satellite-images-$(date +%Y%m%d-%H%M%S)"
export OUTPUT_PATH="gs://$BUCKET/samples/dataflow/landsat/output-images/"
export REGION="us-central1"
export GPU_TYPE="nvidia-tesla-t4"
gcloud builds submit \
--config run.yaml \
--substitutions _JOB_NAME=$JOB_NAME,_OUTPUT_PATH=$OUTPUT_PATH,_REGION=$REGION,_GPU_TYPE=$GPU_TYPE \
--no-source
Replace the following:
- PROJECT_NAME: the Google Cloud project name
- BUCKET_NAME: the Cloud Storage bucket name (without the
gs://
prefix)
After you run this pipeline, wait for the command to finish. If you exit your shell, you might lose the environment variables that you've set.
To avoid sharing the GPU between multiple worker processes, this sample uses a machine type with 1 vCPU. The memory requirements of the pipeline are addressed by using 13 GB of extended memory. For more information, read GPUs and worker parallelism.
View your results
The pipeline in
tensorflow-landsat/main.py
processes Landsat 8 satellite images and
renders them as JPEG files. Use the following steps to view these files.
List the output JPEG files with details by using the Google Cloud CLI.
gcloud storage ls "gs://$BUCKET/samples/dataflow/landsat/" --long --readable-sizes
Copy the files into your local directory.
mkdir outputs gcloud storage cp "gs://$BUCKET/samples/dataflow/landsat/*" outputs/
Open these image files with the image viewer of your choice.
Clean up
To avoid incurring charges to your Google Cloud account for the resources used in this tutorial, either delete the project that contains the resources, or keep the project and delete the individual resources.
Delete the project
The easiest way to eliminate billing is to delete the project that you created for the tutorial.
To delete the project:
- In the Google Cloud console, go to the Manage resources page.
- In the project list, select the project that you want to delete, and then click Delete.
- In the dialog, type the project ID, and then click Shut down to delete the project.
What's next
- Look at a minimal GPU-enabled TensorFlow example
- Look at a minimal GPU-enabled PyTorch example
- Learn more about GPU support on Dataflow.
- Look through tasks for Using GPUs.
- Explore reference architectures, diagrams, and best practices about Google Cloud. Take a look at our Cloud Architecture Center.