This page shows you how to get online (real-time) predictions and explanations from your tabular classification or regression models using the Google Cloud console or the Vertex AI API.
An online prediction is a synchronous request as opposed to a batch prediction, which is an asynchronous request. Use online predictions when you are making requests in response to application input or in other situations where you require timely inference.
You must deploy a model to an endpoint before that model can be used to serve online predictions. Deploying a model associates physical resources with the model so it can serve online predictions with low latency.
The topics covered are:
- Deploy a model to an endpoint
- Get an online prediction using your deployed model
- Get an online explanation using your deployed model
Before you begin
Before you can get online predictions, you must first train a classification or regression model.
Deploy a model to an endpoint
You can deploy more than one model to an endpoint, and you can deploy a model to more than one endpoint. For more information about options and use cases for deploying models, see About deploying models.
Use one of the following methods to deploy a model:
Google Cloud console
In the Google Cloud console, in the Vertex AI section, go to the Models page.
Click the name of the model you want to deploy to open its details page.
Select the Deploy & Test tab.
If your model is already deployed to any endpoints, they are listed in the Deploy your model section.
Click Deploy to endpoint.
In the Define your endpoint page, configure as follows:
You can choose to deploy your model to a new endpoint or an existing endpoint.
- To deploy your model to a new endpoint, select Create new endpoint and provide a name for the new endpoint.
- To deploy your model to an existing endpoint, select Add to existing endpoint and select the endpoint from the drop-down list.
- You can add more than one model to an endpoint, and you can add a model to more than one endpoint. Learn more.
Click Continue.
In the Model settings page, configure as follows:
-
If you're deploying your model to a new endpoint, accept 100 for the Traffic split. If you're deploying your model to an existing endpoint that has one or more models deployed to it, you must update the Traffic split percentage for the model you are deploying and the already deployed models so that all of the percentages add up to 100%.
-
Enter the Minimum number of compute nodes you want to provide for your model.
This is the number of nodes available to this model at all times. You are charged for the nodes used, whether to handle prediction load or for standby (minimum) nodes, even without prediction traffic. See the pricing page.
-
Select your Machine type.
Larger machine resources will increase your prediction performance and increase costs.
-
Learn how to change the default settings for prediction logging.
-
Click Continue
-
In the Model monitoring page, click Continue.
In the Monitoring objectives page, configure as follows:
- Enter the location of your training data.
- Enter the name of the target column.
Click Deploy to deploy your model to the endpoint.
API
When you deploy a model using the Vertex AI API, you complete the following steps:
- Create an endpoint if needed.
- Get the endpoint ID.
- Deploy the model to the endpoint.
Create an endpoint
If you are deploying a model to an existing endpoint, you can skip this step.
gcloud
The following example uses the gcloud ai endpoints create
command:
gcloud ai endpoints create \
--region=LOCATION \
--display-name=ENDPOINT_NAME
Replace the following:
- LOCATION_ID: The region where you are using Vertex AI.
ENDPOINT_NAME: The display name for the endpoint.
The Google Cloud CLI tool might take a few seconds to create the endpoint.
REST
Before using any of the request data, make the following replacements:
- LOCATION_ID: Your region.
- PROJECT_ID: Your project ID.
- ENDPOINT_NAME: The display name for the endpoint.
HTTP method and URL:
POST https://LOCATION_ID-aiplatform.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION_ID/endpoints
Request JSON body:
{ "display_name": "ENDPOINT_NAME" }
To send your request, expand one of these options:
You should receive a JSON response similar to the following:
{ "name": "projects/PROJECT_NUMBER/locations/LOCATION_ID/endpoints/ENDPOINT_ID/operations/OPERATION_ID", "metadata": { "@type": "type.googleapis.com/google.cloud.aiplatform.v1.CreateEndpointOperationMetadata", "genericMetadata": { "createTime": "2020-11-05T17:45:42.812656Z", "updateTime": "2020-11-05T17:45:42.812656Z" } } }
"done": true
.
Java
Before trying this sample, follow the Java setup instructions in the Vertex AI quickstart using client libraries. For more information, see the Vertex AI Java API reference documentation.
To authenticate to Vertex AI, set up Application Default Credentials. For more information, see Set up authentication for a local development environment.
Node.js
Before trying this sample, follow the Node.js setup instructions in the Vertex AI quickstart using client libraries. For more information, see the Vertex AI Node.js API reference documentation.
To authenticate to Vertex AI, set up Application Default Credentials. For more information, see Set up authentication for a local development environment.
Python
To learn how to install or update the Vertex AI SDK for Python, see Install the Vertex AI SDK for Python. For more information, see the Python API reference documentation.
Get the endpoint ID
You need the endpoint ID to deploy the model.
gcloud
The following example uses the gcloud ai endpoints list
command:
gcloud ai endpoints list \
--region=LOCATION \
--filter=display_name=ENDPOINT_NAME
Replace the following:
- LOCATION_ID: The region where you are using Vertex AI.
ENDPOINT_NAME: The display name for the endpoint.
Note the number that appears in the
ENDPOINT_ID
column. Use this ID in the following step.
REST
Before using any of the request data, make the following replacements:
- LOCATION_ID: The region where you are using Vertex AI.
- PROJECT_ID: Your project ID.
- ENDPOINT_NAME: The display name for the endpoint.
HTTP method and URL:
GET https://LOCATION_ID-aiplatform.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION_ID/endpoints?filter=display_name=ENDPOINT_NAME
To send your request, expand one of these options:
You should receive a JSON response similar to the following:
{ "endpoints": [ { "name": "projects/PROJECT_NUMBER/locations/LOCATION_ID/endpoints/ENDPOINT_ID", "displayName": "ENDPOINT_NAME", "etag": "AMEw9yPz5pf4PwBHbRWOGh0PcAxUdjbdX2Jm3QO_amguy3DbZGP5Oi_YUKRywIE-BtLx", "createTime": "2020-04-17T18:31:11.585169Z", "updateTime": "2020-04-17T18:35:08.568959Z" } ] }
Deploy the model
Select the tab below for your language or environment:
gcloud
The following examples use the gcloud ai endpoints deploy-model
command.
The following example deploys a Model
to an Endpoint
without using GPUs
to accelerate prediction serving and without splitting traffic between multiple
DeployedModel
resources:
Before using any of the command data below, make the following replacements:
- ENDPOINT_ID: The ID for the endpoint.
- LOCATION_ID: The region where you are using Vertex AI.
- MODEL_ID: The ID for the model to be deployed.
-
DEPLOYED_MODEL_NAME: A name for the
DeployedModel
. You can use the display name of theModel
for theDeployedModel
as well. -
MACHINE_TYPE: Optional. The machine resources used for each node of this
deployment. Its default setting is
n1-standard-2
. Learn more about machine types. -
MIN_REPLICA_COUNT: The minimum number of nodes for this deployment.
The node count can be increased or decreased as required by the prediction load,
up to the maximum number of nodes and never fewer than this number of nodes.
This value must be greater than or equal to 1. If the
--min-replica-count
flag is omitted, the value defaults to 1. -
MAX_REPLICA_COUNT: The maximum number of nodes for this deployment.
The node count can be increased or decreased as required by the prediction load,
up to this number of nodes and never fewer than the minimum number of nodes.
If you omit the
--max-replica-count
flag, then maximum number of nodes is set to the value of--min-replica-count
.
Execute the gcloud ai endpoints deploy-model command:
Linux, macOS, or Cloud Shell
gcloud ai endpoints deploy-model ENDPOINT_ID\ --region=LOCATION_ID \ --model=MODEL_ID \ --display-name=DEPLOYED_MODEL_NAME \ --machine-type=MACHINE_TYPE \ --min-replica-count=MIN_REPLICA_COUNT \ --max-replica-count=MAX_REPLICA_COUNT \ --traffic-split=0=100
Windows (PowerShell)
gcloud ai endpoints deploy-model ENDPOINT_ID` --region=LOCATION_ID ` --model=MODEL_ID ` --display-name=DEPLOYED_MODEL_NAME ` --machine-type=MACHINE_TYPE ` --min-replica-count=MIN_REPLICA_COUNT ` --max-replica-count=MAX_REPLICA_COUNT ` --traffic-split=0=100
Windows (cmd.exe)
gcloud ai endpoints deploy-model ENDPOINT_ID^ --region=LOCATION_ID ^ --model=MODEL_ID ^ --display-name=DEPLOYED_MODEL_NAME ^ --machine-type=MACHINE_TYPE ^ --min-replica-count=MIN_REPLICA_COUNT ^ --max-replica-count=MAX_REPLICA_COUNT ^ --traffic-split=0=100
Splitting traffic
The --traffic-split=0=100
flag in the preceding examples sends 100% of prediction
traffic that the Endpoint
receives to the new DeployedModel
, which is
represented by the temporary ID 0
. If your Endpoint
already has other
DeployedModel
resources, then you can split traffic between the new
DeployedModel
and the old ones.
For example, to send 20% of traffic to the new DeployedModel
and 80% to an older one,
run the following command.
Before using any of the command data below, make the following replacements:
- OLD_DEPLOYED_MODEL_ID: the ID of the existing
DeployedModel
.
Execute the gcloud ai endpoints deploy-model command:
Linux, macOS, or Cloud Shell
gcloud ai endpoints deploy-model ENDPOINT_ID\ --region=LOCATION_ID \ --model=MODEL_ID \ --display-name=DEPLOYED_MODEL_NAME \ --machine-type=MACHINE_TYPE \ --min-replica-count=MIN_REPLICA_COUNT \ --max-replica-count=MAX_REPLICA_COUNT \ --traffic-split=0=20,OLD_DEPLOYED_MODEL_ID=80
Windows (PowerShell)
gcloud ai endpoints deploy-model ENDPOINT_ID` --region=LOCATION_ID ` --model=MODEL_ID ` --display-name=DEPLOYED_MODEL_NAME \ --machine-type=MACHINE_TYPE ` --min-replica-count=MIN_REPLICA_COUNT ` --max-replica-count=MAX_REPLICA_COUNT ` --traffic-split=0=20,OLD_DEPLOYED_MODEL_ID=80
Windows (cmd.exe)
gcloud ai endpoints deploy-model ENDPOINT_ID^ --region=LOCATION_ID ^ --model=MODEL_ID ^ --display-name=DEPLOYED_MODEL_NAME \ --machine-type=MACHINE_TYPE ^ --min-replica-count=MIN_REPLICA_COUNT ^ --max-replica-count=MAX_REPLICA_COUNT ^ --traffic-split=0=20,OLD_DEPLOYED_MODEL_ID=80
REST
You use the endpoints.predict method to request an online prediction.
Deploy the model.
Before using any of the request data, make the following replacements:
- LOCATION_ID: The region where you are using Vertex AI.
- PROJECT_ID: Your project ID.
- ENDPOINT_ID: The ID for the endpoint.
- MODEL_ID: The ID for the model to be deployed.
-
DEPLOYED_MODEL_NAME: A name for the
DeployedModel
. You can use the display name of theModel
for theDeployedModel
as well. -
MACHINE_TYPE: Optional. The machine resources used for each node of this
deployment. Its default setting is
n1-standard-2
. Learn more about machine types. - ACCELERATOR_TYPE: The type of accelerator to be attached to the machine. Optional if ACCELERATOR_COUNT is not specified or is zero. Not recommended for AutoML models or custom-trained models that are using non-GPU images. Learn more.
- ACCELERATOR_COUNT: The number of accelerators for each replica to use. Optional. Should be zero or unspecified for AutoML models or custom-trained models that are using non-GPU images.
- MIN_REPLICA_COUNT: The minimum number of nodes for this deployment. The node count can be increased or decreased as required by the prediction load, up to the maximum number of nodes and never fewer than this number of nodes. This value must be greater than or equal to 1.
- MAX_REPLICA_COUNT: The maximum number of nodes for this deployment. The node count can be increased or decreased as required by the prediction load, up to this number of nodes and never fewer than the minimum number of nodes.
- TRAFFIC_SPLIT_THIS_MODEL: The percentage of the prediction traffic to this endpoint to be routed to the model being deployed with this operation. Defaults to 100. All traffic percentages must add up to 100. Learn more about traffic splits.
- DEPLOYED_MODEL_ID_N: Optional. If other models are deployed to this endpoint, you must update their traffic split percentages so that all percentages add up to 100.
- TRAFFIC_SPLIT_MODEL_N: The traffic split percentage value for the deployed model id key.
- PROJECT_NUMBER: Your project's automatically generated project number
HTTP method and URL:
POST https://LOCATION_ID-aiplatform.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION_ID/endpoints/ENDPOINT_ID:deployModel
Request JSON body:
{ "deployedModel": { "model": "projects/PROJECT/locations/us-central1/models/MODEL_ID", "displayName": "DEPLOYED_MODEL_NAME", "dedicatedResources": { "machineSpec": { "machineType": "MACHINE_TYPE", "acceleratorType": "ACCELERATOR_TYPE", "acceleratorCount": "ACCELERATOR_COUNT" }, "minReplicaCount": MIN_REPLICA_COUNT, "maxReplicaCount": MAX_REPLICA_COUNT }, }, "trafficSplit": { "0": TRAFFIC_SPLIT_THIS_MODEL, "DEPLOYED_MODEL_ID_1": TRAFFIC_SPLIT_MODEL_1, "DEPLOYED_MODEL_ID_2": TRAFFIC_SPLIT_MODEL_2 }, }
To send your request, expand one of these options:
You should receive a JSON response similar to the following:
{ "name": "projects/PROJECT_ID/locations/LOCATION/endpoints/ENDPOINT_ID/operations/OPERATION_ID", "metadata": { "@type": "type.googleapis.com/google.cloud.aiplatform.v1.DeployModelOperationMetadata", "genericMetadata": { "createTime": "2020-10-19T17:53:16.502088Z", "updateTime": "2020-10-19T17:53:16.502088Z" } } }
Java
Before trying this sample, follow the Java setup instructions in the Vertex AI quickstart using client libraries. For more information, see the Vertex AI Java API reference documentation.
To authenticate to Vertex AI, set up Application Default Credentials. For more information, see Set up authentication for a local development environment.
Python
To learn how to install or update the Vertex AI SDK for Python, see Install the Vertex AI SDK for Python. For more information, see the Python API reference documentation.
Node.js
Before trying this sample, follow the Node.js setup instructions in the Vertex AI quickstart using client libraries. For more information, see the Vertex AI Node.js API reference documentation.
To authenticate to Vertex AI, set up Application Default Credentials. For more information, see Set up authentication for a local development environment.
Learn how to change the default settings for prediction logging.
Get operation status
Some requests start long-running operations that require time to complete. These requests return an operation name, which you can use to view the operation's status or cancel the operation. Vertex AI provides helper methods to make calls against long-running operations. For more information, see Working with long-running operations.
Get an online prediction using your deployed model
To make an online prediction, submit one or more test items to a model for analysis, and the model returns results that are based on your model's objective. Use the Google Cloud console or the Vertex AI API to request an online prediction.
Google Cloud console
In the Google Cloud console, in the Vertex AI section, go to the Models page.
From the list of models, click the name of the model to request predictions from.
Select the Deploy & test tab.
Under the Test your model section, add test items to request a prediction. The baseline prediction data is filled in for you, or you can enter your own prediction data and click Predict.
After the prediction is complete, Vertex AI returns the results in the console.
API: Classification
gcloud
-
Create a file named
request.json
with the following contents:{ "instances": [ { PREDICTION_DATA_ROW } ] }
Replace the following:
-
PREDICTION_DATA_ROW: A JSON object with keys as the feature names and values as the corresponding feature values. For example, for a dataset with a number, an array of strings, and a category, the row of data might look like the following example request:
"length":3.6, "material":"cotton", "tag_array": ["abc","def"]
A value must be provided for every feature included in training. The format of the data used for prediction must match the format used for training. Refer to Data format for predictions for details.
-
-
Run the following command:
gcloud ai endpoints predict ENDPOINT_ID \ --region=LOCATION_ID \ --json-request=request.json
Replace the following:
- ENDPOINT_ID: The ID for the endpoint.
- LOCATION_ID: The region where you are using Vertex AI.
REST
You use the endpoints.predict method to request an online prediction.
Before using any of the request data, make the following replacements:
-
LOCATION_ID: Region where Endpoint is located. For example,
us-central1
. - PROJECT_ID: Your project ID.
- ENDPOINT_ID: The ID for the endpoint.
-
PREDICTION_DATA_ROW: A JSON object with keys as the feature names and values as the corresponding feature values. For example, for a dataset with a number, an array of strings, and a category, the row of data might look like the following example request:
"length":3.6, "material":"cotton", "tag_array": ["abc","def"]
A value must be provided for every feature included in training. The format of the data used for prediction must match the format used for training. Refer to Data format for predictions for details.
- DEPLOYED_MODEL_ID: Output by the
predict
method, and accepted as input by theexplain
method. The ID of the model used to generate the prediction. If you need to request explanations for a previously requested prediction, and you have more than one model deployed, you can use this ID to ensure that the explanations are returned for the same model that provided the previous prediction.
HTTP method and URL:
POST https://LOCATION_ID-aiplatform.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION_ID/endpoints/ENDPOINT_ID:predict
Request JSON body:
{ "instances": [ { PREDICTION_DATA_ROW } ] }
To send your request, choose one of these options:
curl
Save the request body in a file named request.json
,
and execute the following command:
curl -X POST \
-H "Authorization: Bearer $(gcloud auth print-access-token)" \
-H "Content-Type: application/json; charset=utf-8" \
-d @request.json \
"https://LOCATION_ID-aiplatform.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION_ID/endpoints/ENDPOINT_ID:predict"
PowerShell
Save the request body in a file named request.json
,
and execute the following command:
$cred = gcloud auth print-access-token
$headers = @{ "Authorization" = "Bearer $cred" }
Invoke-WebRequest `
-Method POST `
-Headers $headers `
-ContentType: "application/json; charset=utf-8" `
-InFile request.json `
-Uri "https://LOCATION_ID-aiplatform.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION_ID/endpoints/ENDPOINT_ID:predict" | Select-Object -Expand Content
You should receive a JSON response similar to the following:
{ "predictions": [ { "scores": [ 0.96771615743637085, 0.032283786684274673 ], "classes": [ "0", "1" ] } ] "deployedModelId": "2429510197" }
Java
Before trying this sample, follow the Java setup instructions in the Vertex AI quickstart using client libraries. For more information, see the Vertex AI Java API reference documentation.
To authenticate to Vertex AI, set up Application Default Credentials. For more information, see Set up authentication for a local development environment.
Node.js
Before trying this sample, follow the Node.js setup instructions in the Vertex AI quickstart using client libraries. For more information, see the Vertex AI Node.js API reference documentation.
To authenticate to Vertex AI, set up Application Default Credentials. For more information, see Set up authentication for a local development environment.
Python
To learn how to install or update the Vertex AI SDK for Python, see Install the Vertex AI SDK for Python. For more information, see the Python API reference documentation.
API: Regression
gcloud
-
Create a file named `request.json` with the following contents:
{ "instances": [ { PREDICTION_DATA_ROW } ] }
Replace the following:
-
PREDICTION_DATA_ROW: A JSON object with keys as the feature names and values as the corresponding feature values. For example, for a dataset with a number, an array of numbers, and a category, the row of data might look like the following example request:
"age":3.6, "sq_ft":5392, "code": "90331"
A value must be provided for every feature included in training. The format of the data used for prediction must match the format used for training. Refer to Data format for predictions for details.
-
-
Run the following command:
gcloud ai endpoints predict ENDPOINT_ID \ --region=LOCATION_ID \ --json-request=request.json
Replace the following:
- ENDPOINT_ID: The ID for the endpoint.
- LOCATION_ID: The region where you are using Vertex AI.
REST
You use the endpoints.predict method to request an online prediction.
Before using any of the request data, make the following replacements:
-
LOCATION_ID: Region where Endpoint is located. For example,
us-central1
. - PROJECT_ID: Your project ID.
- ENDPOINT_ID: The ID for the endpoint.
-
PREDICTION_DATA_ROW: A JSON object with keys as the feature names and values as the corresponding feature values. For example, for a dataset with a number, an array of numbers, and a category, the row of data might look like the following example request:
"age":3.6, "sq_ft":5392, "code": "90331"
A value must be provided for every feature included in training. The format of the data used for prediction must match the format used for training. Refer to Data format for predictions for details.
- DEPLOYED_MODEL_ID: Output by the
predict
method, and accepted as input by theexplain
method. The ID of the model used to generate the prediction. If you need to request explanations for a previously requested prediction, and you have more than one model deployed, you can use this ID to ensure that the explanations are returned for the same model that provided the previous prediction.
HTTP method and URL:
POST https://LOCATION_ID-aiplatform.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION_ID/endpoints/ENDPOINT_ID:predict
Request JSON body:
{ "instances": [ { PREDICTION_DATA_ROW } ] }
To send your request, choose one of these options:
curl
Save the request body in a file named request.json
,
and execute the following command:
curl -X POST \
-H "Authorization: Bearer $(gcloud auth print-access-token)" \
-H "Content-Type: application/json; charset=utf-8" \
-d @request.json \
"https://LOCATION_ID-aiplatform.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION_ID/endpoints/ENDPOINT_ID:predict"
PowerShell
Save the request body in a file named request.json
,
and execute the following command:
$cred = gcloud auth print-access-token
$headers = @{ "Authorization" = "Bearer $cred" }
Invoke-WebRequest `
-Method POST `
-Headers $headers `
-ContentType: "application/json; charset=utf-8" `
-InFile request.json `
-Uri "https://LOCATION_ID-aiplatform.googleapis.com/v1/projects/PROJECT_ID/locations/LOCATION_ID/endpoints/ENDPOINT_ID:predict" | Select-Object -Expand Content
You should receive a JSON response similar to the following:
{ "predictions": [ [ { "value": 65.14233 } ] ], "deployedModelId": "DEPLOYED_MODEL_ID" }
Java
Before trying this sample, follow the Java setup instructions in the Vertex AI quickstart using client libraries. For more information, see the Vertex AI Java API reference documentation.
To authenticate to Vertex AI, set up Application Default Credentials. For more information, see Set up authentication for a local development environment.
Node.js
Before trying this sample, follow the Node.js setup instructions in the Vertex AI quickstart using client libraries. For more information, see the Vertex AI Node.js API reference documentation.
To authenticate to Vertex AI, set up Application Default Credentials. For more information, see Set up authentication for a local development environment.
Python
To learn how to install or update the Vertex AI SDK for Python, see Install the Vertex AI SDK for Python. For more information, see the Python API reference documentation.
Interpret prediction results
Classification
Classification models return a confidence score.
The confidence score communicates how strongly your model associates each class or label with a test item. The higher the number, the higher the model's confidence that the label should be applied to that item. You decide how high the confidence score must be for you to accept the model's results.
Regression
Regression models return a prediction value.
If your model uses probabilistic inference, the value
field contains the
minimizer of the optimization objective. For example, if your optimization
objective is minimize-rmse
, the value
field contains the mean value.
If it is minimize-mae
, the value
field contains the median value.
If your model uses probabilistic inference with quantiles, Vertex AI provides quantile values and predictions in addition to the minimizer of the optimization objective. Quantile values are set during model training. Quantile predictions are the prediction values associated with the quantile values.
Get an online explanation using your deployed model
You can request a prediction with explanations (also called feature attributions) to see how your model arrived at a prediction. The local feature importance values tell you how much each feature contributed to the prediction result. Feature attributions are included in Vertex AI predictions through Vertex Explainable AI.
Console
When you use the Google Cloud console to request an online prediction, the local feature importance values are automatically returned.
If you used the pre-filled prediction values, the local feature importance values are all zero. This is because the pre-filled values are the baseline prediction data, so the prediction returned is the baseline prediction value.
gcloud
Create a file named
request.json
with the following contents:{ "instances": [ { PREDICTION_DATA_ROW } ] }
Replace the following:
-
PREDICTION_DATA_ROW: A JSON object with keys as the feature names and values as the corresponding feature values. For example, for a dataset with a number, an array of strings, and a category, the row of data might look like the following example request:
"length":3.6, "material":"cotton", "tag_array": ["abc","def"]
A value must be provided for every feature included in training. The format of the data used for prediction must match the format used for training. Refer to Data format for predictions for details.
-
Run the following command:
gcloud ai endpoints explain ENDPOINT_ID \ --region=LOCATION_ID \ --json-request=request.json
Replace the following:
- ENDPOINT_ID: The ID for the endpoint.
- LOCATION_ID: The region where you are using Vertex AI.
Optionally, if you want to send an explanation request to a specific
DeployedModel
on theEndpoint
, you can specify the--deployed-model-id
flag:gcloud ai endpoints explain ENDPOINT_ID \ --region=LOCATION \ --deployed-model-id=DEPLOYED_MODEL_ID \ --json-request=request.json
In addition to the placeholders described previously, replace the following:
-
DEPLOYED_MODEL_ID Optional: The ID of the deployed model for which you want to get
explanations. The ID is included in the
predict
method's response. If you need to request explanations for a particular model and you have more than one model deployed to the same endpoint, you can use this ID to ensure that the explanations are returned for that particular model.
REST
The following example shows an online prediction request for a tabular classification model with local feature attributions. The request format is the same for regression models.
Before using any of the request data, make the following replacements:
-
LOCATION: Region where Endpoint is located. For example,
us-central1
. - PROJECT: Your project ID.
- ENDPOINT_ID: The ID for the endpoint.
-
PREDICTION_DATA_ROW: A JSON object with keys as the feature names and values as the corresponding feature values. For example, for a dataset with a number, an array of strings, and a category, the row of data might look like the following example request:
"length":3.6, "material":"cotton", "tag_array": ["abc","def"]
A value must be provided for every feature included in training. The format of the data used for prediction must match the format used for training. Refer to Data format for predictions for details.
-
DEPLOYED_MODEL_ID (optional): The ID of the deployed model for which you want to get
explanations. The ID is included in the
predict
method's response. If you need to request explanations for a particular model and you have more than one model deployed to the same endpoint, you can use this ID to ensure that the explanations are returned for that particular model.
HTTP method and URL:
POST https://LOCATION-aiplatform.googleapis.com/v1/projects/PROJECT/locations/LOCATION/endpoints/ENDPOINT_ID:explain
Request JSON body:
{ "instances": [ { PREDICTION_DATA_ROW } ], "deployedModelId": "DEPLOYED_MODEL_ID" }
To send your request, choose one of these options:
curl
Save the request body in a file named request.json
,
and execute the following command:
curl -X POST \
-H "Authorization: Bearer $(gcloud auth print-access-token)" \
-H "Content-Type: application/json; charset=utf-8" \
-d @request.json \
"https://LOCATION-aiplatform.googleapis.com/v1/projects/PROJECT/locations/LOCATION/endpoints/ENDPOINT_ID:explain"
PowerShell
Save the request body in a file named request.json
,
and execute the following command:
$cred = gcloud auth print-access-token
$headers = @{ "Authorization" = "Bearer $cred" }
Invoke-WebRequest `
-Method POST `
-Headers $headers `
-ContentType: "application/json; charset=utf-8" `
-InFile request.json `
-Uri "https://LOCATION-aiplatform.googleapis.com/v1/projects/PROJECT/locations/LOCATION/endpoints/ENDPOINT_ID:explain" | Select-Object -Expand Content
Python
To learn how to install or update the Vertex AI SDK for Python, see Install the Vertex AI SDK for Python. For more information, see the Python API reference documentation.
Get explanations for a previously returned prediction
Because explanations increase resource usage, you might want to reserve requesting explanations for situations when you specifically need them. Sometimes, it can be helpful to request explanations for a prediction result you've already received, perhaps because the prediction was an outlier or did not make sense.
If all of your predictions are coming from the same model, you can simply resend
the request data, with explanations requested this time. However, if you have
multiple models returning predictions, you must make sure you send the
explanation request to the correct model. You can view explanations for a
particular model by including the deployed model's ID deployedModelID
in your
request, which is included in the response of the original prediction request.
Note that the deployed model ID is different from the model ID.
Interpret explanation results
To calculate local feature importance, first the baseline prediction score is calculated. Baseline values are computed from the training data, using the median value for numeric features and the mode for categorical features. The prediction generated from the baseline values is the baseline prediction score. Baseline values are calculated once for a model and do not change.
For a specific prediction, the local feature importance for each feature tells you how much that feature added to or subtracted from the result as compared with the baseline prediction score. The sum of all of the feature importance values equals the difference between the baseline prediction score and the prediction result.
For classification models, the score is always between 0.0 and 1.0, inclusive. Therefore, local feature importance values for classification models are always between -1.0 and 1.0 (inclusive).
For examples of feature attribution queries and to learn more, see Feature Attributions for Classification and Regression.Example output for predictions and explanations
Classification
The return payload for an online prediction from a tabular classification model with feature importance looks similar to the following example.
The instanceOutputValue
of 0.928652400970459
is the
confidence score of the highest-scoring class, in this case
class_a
. The baselineOutputValue
field contains
the baseline prediction score, 0.808652400970459
. The feature that
contributed most strongly to this result was feature_3
.
{
"predictions": [
{
"scores": [
0.928652400970459,
0.071347599029541
],
"classes": [
"class_a",
"class_b"
]
}
]
"explanations": [
{
"attributions": [
{
"baselineOutputValue": 0.808652400970459,
"instanceOutputValue": 0.928652400970459,
"approximationError": 0.0058915703929231,
"featureAttributions": {
"feature_1": 0.012394922231235,
"feature_2": 0.050212341234556,
"feature_3": 0.057392736534209,
},
"outputIndex": [
0
],
"outputName": "scores"
}
],
}
]
"deployedModelId": "234567"
}
Regression
The return payload for an online prediction with feature importance from a tabular regression model looks similar to the following example.
The instanceOutputValue
of 1795.1246466281819
is the
predicted value. The baselineOutputValue
field contains
the baseline prediction score, 1788.7423095703125
. The feature that
contributed most strongly to this result was feature_3
.
{
"predictions": [
{
"value": 1795.1246466281819
}
]
"explanations": [
{
"attributions": [
{
"baselineOutputValue": 1788.7423095703125,
"instanceOutputValue": 1795.1246466281819,
"approximationError": 0.0038215703911553,
"featureAttributions": {
"feature_1": 0.123949222312359,
"feature_2": 0.802123412345569,
"feature_3": 5.456264423211472,
},
"outputIndex": [
-1
]
}
]
}
],
"deployedModelId": "345678"
}
What's next
- Learn how to export your model.
- Learn about pricing for online predictions.
Except as otherwise noted, the content of this page is licensed under the Creative Commons Attribution 4.0 License, and code samples are licensed under the Apache 2.0 License. For details, see the Google Developers Site Policies. Java is a registered trademark of Oracle and/or its affiliates.
Last updated 2024-12-20 UTC.