Model Drift Detection¶
When ML models are deployed in production, sometimes even minor changes in a data distribution can adversely affect the performance of ML models. When the input data distribution shifts then prediction quality can drop. It is important to track this drift. This demo is based on the mixed-type tabular data drift detection method in the alibi detect project for tabular datasets.
Here we will :
Launch an income classifier model based on demographic features from a 1996 US census. The data instances contain a person’s characteristics like age, marital status or education while the label represents whether the person makes more or less than $50k per year.
Setup a mixed-type tabular data drift detector for this particular model.
Make a batch of predictions over time
Track the drift metrics in the Monitoring dashboard.
This demo requires Knative installation on the cluster as the drift detector will be installed as a kservice. See Knative intallation instructions for necessary setup required.
Register an income classifier model¶
Register a pre-trained income classifier SKLearn model with model artefacts stored publicly in this Google bucket:
Model Cataloguepage, click the
Register New Modelbutton:
Register New Modelwizard, enter the following information, then click
Configure predictions schema¶
Edit the model metadata to update the prediction schema for the model. The prediction schema is a generic schema structure for machine learning model predictions. It is a definition of feature inputs and output targets from the model prediction. Use the
income classifier model predictions schema to edit and save the model level metadata. Learn more about the predictions schema at the ML Predictions Schema open source repository.
Click on the model
income-classifiermodel that you have just registered.
Edit Metadatabutton to update the prediction schema associated with the model
prediction schemaand click
Launch a Seldon Core V1 Ddrift-detection-v1-create-3.pngeployment¶
Deploy the income classifier model from the catalogue into an appropriate namespace
From the model catalogue, under the
Actiondropdown list, select
Expand to see deploy model
Enter the deployment details in the deployment creation wizard and click
Expand to see deploy model
In the deployment creation wizard, enter a name for your new deployment (e.g.
income-classifier). Select the namespace you would like the deployment to reside in (e.g.
seldon). From the protocol dropdown menu, select
Seldonand click Next.
The predictor details should already be filled in from the model catalogue. Click
Expand to see default predictor details
Nextfor the remaining steps, then click
Add A Drift Detector¶
From the deployment overview page, select your deployment to enter the deployment dashboard. Inside the deployment dashboard, add a drift detector with by clicking the
Create button within the
Drift Detection widget.
Expand to see drift detector creation
Enter the following parameters in the modal popup which appears, to configure the detector:
Model URI: (For public google buckets, secret field is optional)
Reply URL: (By default, the Reply URL is set as
seldon-request-loggerin the logger’s default namespace. If you are using a custom installation, please change this parameter according to your installation.)
Create Drift-Detector to complete the setup.
The drift detector model used here was trained similarly to the mixed type data drift detection model in the alibi-detect documentation, with one key difference - the reference dataset used was a filtered for working-class adults where only entries with
Age > 30(more than 30) and
Hours per Week > 40(more than 40) were kept from the data set as reference.
Run Batch Predictions¶
From the deployment dashboard, click on
Batch Jobs. Run a batch prediction job using the ndarray payload format text
predictions data file. This file has 4000 individual data points and based on our drift detector configuration, drift will be detected for a batch every
200points. The distribution of the data in the first half section is the same as the distribution of the reference data the drift detector was configured with and the second half section of the data should be different to observe drift.
Upload the data to a bucket store of your choice. This demo will use minio and store the data at bucket path
minio://income-batch-data/data.txt. Do not forget to configure your storage access credentials secret - we have it as
minio-buckethere. Refer to the batch request demo for an example of how this can be done via the minio browser.
Running a batch job with the configuration below. This runs an offline job that makes a prediction request for a batch of 200 rows in the file at
Input Data Location: minio://income-batch-data/data.txt Output Data Location: minio://income-batch-data/output.txt Number of Workers: 1 Number of Retries: 3 Batch Size: 200 Minimum Batch Wait Interval (sec): 5 Method: Predict Transport Protocol: REST Input Data Type: ndarray Object Store Secret Name: minio-bucket
Monitor Drift Detection Metrics¶
Monitor section of your deployment navigation, on the
Drift Detection Tab, you can see a timeline of drift detection metrics.
As mentioned above, the drift detection model was trained with data for working-class adults where only entries with
Age > 30(more than 30) and
Hours per Week > 40(more than 40) were kept from the data set as reference. The live prediction data set provided for the batch prediction jobs contains entries with
Age > 30 and
Hours per Week > 40 in the first 2000 rows referring to working class adults, and later entries with
Age < 20(less than 20) and
Hours per Week < 20(less than 20) in the last 2000 rows referring to teen aged part-time workers/students.
The drift dashboard showcases 2 types of metrics graphs:
P-value score over time
Zoomed in view, focussing on features that have drifted, i.e. features that have a p-value score of less than the threshold.
Zoomed out view, showing all features
Distance score over time.
Note that for both drift metrics graphs, the starting batches do not drift and are marked by an empty
O symbol, while the later batches do drift and are marked by a filled
Data drift and reference distributions comparison¶
To further analyse prediction data drift, you can also switch to the feature distribution tab to compare predictions to reference data distribution. See feature distribution monitoring demo for setup details.
income classifier reference dataset as the reference data to monitor data drift in terms of feature distributions. Once reference data is available, you can compare the distributions of the prediction data to the reference data.
Expand to see reference data available
You can see when reference data is available by checking the button on the top left of the
DISTRIBUTIONS dashboard. If it is not clickable and displays
REFERENCE DATA AVAILABLE, then reference data is available.
When switching to the
DISTRIBUTIONS dashboard, you may also see the following notification pop up: