Cloud architecture leveraged to unlock segmentation of thousands of images using Google Cloud Platform
The code requires python>=3.8, as well as pytorch>=1.7 and torchvision>=0.8. Installing both PyTorch and TorchVision with CUDA support is strongly recommended. Also other optional dependencies include opencv-python and matplotlib for masks post-processing. Follow the instructions carefully in each cell of every notebook for easy understanding of code and the necessary installations.
Follow the steps below to enable GCP services usage:
- Make sure you are not on Free Trial since the GPU are not allowed to be used in Free Trial accounts. You need to activate billing.
- Create a Repository in Artifacts Registry on GCP in standard docker format.
- On the VertexAI console Enable All recommended API when using it for the first time.
- Create new Workbench instance in VertexAI with following configuration and clone the ml-ops-segment-anything repository.
- Workbench type: User-managed Notebooks
- Operating System: Debian 11
- Environment: Pytorch
- Machine Type: n1-standard-2(1vCPUs, 7.5GB RAM)
- GPU: Nvidia T4
- GPU Count: 1
- Select the checkbox which says Install NVIDIA GPU driver automatically for me
- Keep the remaining configurations as it is
- Create a bucket with unique name in Google Cloud Storage with default settings. Create 3 folders inside the bucket with following names:
- sam-checkpoint.
- batch-prediction-images.
- pipeline
- Upload the SAM checkpoint of your choice to sam-checkpoint folder inside the bucket created.
- Upload the images to batch-prediction-images folder to test Batch Predictions.
Run the sam-demo-notebook in demo-notebooks folder for examples on using SAM with prompts and automatically generating masks.
Deploying SAM to an endpoint in Vertex AI requires Custom Container with Custom Prediction Routine.
The source code folder in Online Predictions has Custom Prediction Routine(CPR) and requirements file that is required to build the custom container. CPR has the capability of handling predictions with prompts and without prompts.
Follow the steps below to deploy the model and test the endpoint on VertexAI:
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Run the Online Prediction Model Input Preparation notebook to generate 2 JSON files for Endpoint testing. Also refer to the endpoint input JSON structure in the notebook.
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Follow the instructions in each cell and run the Containerization notebook to build the custom container and push the container to the Repository created in Artifacts Registry on GCP. You can also deploy locally and test the endpoint.
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Go to Model Registry on VertexAI to register the model for deployment:
- Click IMPORT and under Model Settings select Import an existing custom container. Click on BROWSE and select the container from the Artifacts Registry.
- Browse and select the path to the Cloud Storage directory where the exported model file is stored.
- Set the prediction route to /predict and health route to /health.
- Keep the remaining configuration as it is and import the model.
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Go to Online Prediction on VertexAI to deploy the model to an Endpoint:
- Click CREATE and give the endpoint name
- Under Model Settings select the registered model name and the version.
- Under ADVANCED SCALING OPTIONS choose the following configurations:
- Machine Type: n1-standard-2(1vCPUs, 7.5GB RAM)
- Accelerator Type: NVIDIA_TESLA_T4
- Accelerator Count: 1
- Keep the remaining configuration as it is and initiate endpoint creation
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Follow the instructions in the Containerization notebook to test the endpoint once the deployment is complete.
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The Response JSON structure of the endpoint is of the format:
- Predicting with prompts
{ "file_path" : file name, "masks" : [masks], "scores" : [scores], "logits" : [logits] }- Predicting without prompts
{ "file_path" : file name, "masks" : [masks] }
Register the model in Model Registry and use the Model ID in Version Details of the registered model in the batch prediction notebook to test Batch Predictions. Follow the instructions in the notebook to set up a batch prediction job.
In comparison to VertexAI Pipeline solution, VertexAI batch prediction is generally outclassed because of the following reasons:
- Out of Memory (OOM) issue will much more likely happen, due to extra configuration and mysterious default running in Batch Prediction runtime. As per the official documentation, Batch Prediction will take up to 40% (though Wallace thinks it's actually even higher) resources from a Nvidia T4 GPU.
- Much longer initialization time. Under the condition of Nvidia T4 GPU, the job initialization from batch prediction will take 40 minutes, much longer than 10 minutes in VertexAI Pipeline.
- No access to fully control your codes. Batch Prediction will require you to follow the routine, including steps of model loading, preprocessing, prediction and postprocessing, meaning there will be a lot of time taken for correcting the input and output format between different functions, which is highly inefficient.
Machine Learning Pipeline job for Segment-Anything Model is setup using Kubeflow SDK with component based approach. Here the Pipeline job is capable of handling a batch of images and processing them in sequence and finally outputing individual image segments upon original image and saving it into Cloud Storage.
The input to the batch prediction function component is a folder with a batch of images and a JSON file which holds the prompts to random set of images within the folder.
The prompt JSON structure is:
{
"file name" : {label: [co-ordinate prompts]}
}The prompt file is not required. If not given, the pipeline will run all images without prompts by default.
Customized docker image is required as base image for each batch prediction component in the pipeline.
To build the base image, run the build script This shell script will run through the predefined Dockerfile, build the docker image and save it to a repository in Container Registry inside Artifacts Registry.
Open the Terminal and navigate to the folder with the build script and execute it with the following command:
./build.shFor the purpose of simulating a pipeline run, We will create folder with duplicate images to give as an input to the batch prediction component. Follow the instructions and run the pipeline prep notebook that creates a folder inside pipeline folder, which we will later submit as an input to the pipeline job.
Follow the instructions in pipeline notebook to setup the pipeline job and go back to vertex AI pipelines to monitor logs and status of the pipeline job.
As a result of successful pipeline run, to enable Static Visualization, A markdown file is generated which shows individual images along with maximum 10 segments laid separately on the original image.
