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Data schemas to train computer vision models with automated machine learning

APPLIES TO: Azure CLI ml extension v2 (current) Python SDK azure-ai-ml v2 (current)

Learn how to format your JSONL files for data consumption in automated ML experiments for computer vision tasks during training and inference.

Data schema for training

Azure Machine Learning AutoML for Images requires input image data to be prepared in JSONL (JSON Lines) format. This section describes input data formats or schema for image classification multi-class, image classification multi-label, object detection, and instance segmentation. We'll also provide a sample of final training or validation JSON Lines file.

Image classification (binary/multi-class)

Input data format/schema in each JSON Line:

{
   "image_url":"azureml://subscriptions/<my-subscription-id>/resourcegroups/<my-resource-group>/workspaces/<my-workspace>/datastores/<my-datastore>/paths/<path_to_image>",
   "image_details":{
      "format":"image_format",
      "width":"image_width",
      "height":"image_height"
   },
   "label":"class_name",
}
Key Description Example
image_url Image location in Azure Machine Learning datastore.
my-subscription-id needs to be replaced by the Azure subscription where images are located. More information about Azure subscriptions can be found here. Similarly my-resource-group, my-workspace, my-datastore should be replaced by resource group name, workspace name and datastore name respectively.
path_to_image should be the full path to image on datastore.
Required, String
"azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_01.jpg"
image_details Image details
Optional, Dictionary
"image_details":{"format": "jpg", "width": "400px", "height": "258px"}
format Image type (all the available Image formats in Pillow library are supported)
Optional, String from {"jpg", "jpeg", "png", "jpe", "jfif","bmp", "tif", "tiff"}
"jpg" or "jpeg" or "png" or "jpe" or "jfif" or "bmp" or "tif" or "tiff"
width Width of the image
Optional, String or Positive Integer
"400px" or 400
height Height of the image
Optional, String or Positive Integer
"200px" or 200
label Class/label of the image
Required, String
"cat"

Example of a JSONL file for multi-class image classification:

{"image_url": "azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_01.jpg", "image_details":{"format": "jpg", "width": "400px", "height": "258px"}, "label": "can"}
{"image_url": "azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_02.jpg", "image_details": {"format": "jpg", "width": "397px", "height": "296px"}, "label": "milk_bottle"}
.
.
.
{"image_url": "azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_n.jpg", "image_details": {"format": "jpg", "width": "1024px", "height": "768px"}, "label": "water_bottle"}

Image example for image classification multi-class.

Image classification multi-label

The following is an example of input data format/schema in each JSON Line for image classification.

{
   "image_url":"azureml://subscriptions/<my-subscription-id>/resourcegroups/<my-resource-group>/workspaces/<my-workspace>/datastores/<my-datastore>/paths/<path_to_image>",
   "image_details":{
      "format":"image_format",
      "width":"image_width",
      "height":"image_height"
   },
   "label":[
      "class_name_1",
      "class_name_2",
      "class_name_3",
      "...",
      "class_name_n"
        
   ]
}
Key Description Example
image_url Image location in Azure Machine Learning datastore.
my-subscription-id needs to be replaced by the Azure subscription where images are located. More information about Azure subscriptions can be found here. Similarly my-resource-group, my-workspace, my-datastore should be replaced by resource group name, workspace name and datastore name respectively.
path_to_image should be the full path to image on datastore.
Required, String
"azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_01.jpg"
image_details Image details
Optional, Dictionary
"image_details":{"format": "jpg", "width": "400px", "height": "258px"}
format Image type (all the Image formats available in Pillow library are supported)
Optional, String from {"jpg", "jpeg", "png", "jpe", "jfif", "bmp", "tif", "tiff"}
"jpg" or "jpeg" or "png" or "jpe" or "jfif" or "bmp" or "tif" or "tiff"
width Width of the image
Optional, String or Positive Integer
"400px" or 400
height Height of the image
Optional, String or Positive Integer
"200px" or 200
label List of classes/labels in the image
Required, List of Strings
["cat","dog"]

Example of a JSONL file for Image Classification Multi-label:

{"image_url": "azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_01.jpg", "image_details":{"format": "jpg", "width": "400px", "height": "258px"}, "label": ["can"]}
{"image_url": "azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_02.jpg", "image_details": {"format": "jpg", "width": "397px", "height": "296px"}, "label": ["can","milk_bottle"]}
.
.
.
{"image_url": "azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_n.jpg", "image_details": {"format": "jpg", "width": "1024px", "height": "768px"}, "label": ["carton","milk_bottle","water_bottle"]}

Image example for image classification multi-label.

Object detection

The following is an example JSONL file for object detection.

{
   "image_url":"azureml://subscriptions/<my-subscription-id>/resourcegroups/<my-resource-group>/workspaces/<my-workspace>/datastores/<my-datastore>/paths/<path_to_image>",
   "image_details":{
      "format":"image_format",
      "width":"image_width",
      "height":"image_height"
   },
   "label":[
      {
         "label":"class_name_1",
         "topX":"xmin/width",
         "topY":"ymin/height",
         "bottomX":"xmax/width",
         "bottomY":"ymax/height",
         "isCrowd":"isCrowd"
      },
      {
         "label":"class_name_2",
         "topX":"xmin/width",
         "topY":"ymin/height",
         "bottomX":"xmax/width",
         "bottomY":"ymax/height",
         "isCrowd":"isCrowd"
      },
      "..."
   ]
}

Here,

  • xmin = x coordinate of top-left corner of bounding box
  • ymin = y coordinate of top-left corner of bounding box
  • xmax = x coordinate of bottom-right corner of bounding box
  • ymax = y coordinate of bottom-right corner of bounding box
Key Description Example
image_url Image location in Azure Machine Learning datastore.
my-subscription-id needs to be replaced by the Azure subscription where images are located. More information about Azure subscriptions can be found here. Similarly my-resource-group, my-workspace, my-datastore should be replaced by resource group name, workspace name and datastore name respectively.
path_to_image should be the full path to image on datastore.
Required, String
"azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_01.jpg"
image_details Image details
Optional, Dictionary
"image_details":{"format": "jpg", "width": "400px", "height": "258px"}
format Image type (all the Image formats available in Pillow library are supported. But for YOLO only image formats allowed by opencv are supported)
Optional, String from {"jpg", "jpeg", "png", "jpe", "jfif", "bmp", "tif", "tiff"}
"jpg" or "jpeg" or "png" or "jpe" or "jfif" or "bmp" or "tif" or "tiff"
width Width of the image
Optional, String or Positive Integer
"499px" or 499
height Height of the image
Optional, String or Positive Integer
"665px" or 665
label (outer key) List of bounding boxes, where each box is a dictionary of label, topX, topY, bottomX, bottomY, isCrowd their top-left and bottom-right coordinates
Required, List of dictionaries
[{"label": "cat", "topX": 0.260, "topY": 0.406, "bottomX": 0.735, "bottomY": 0.701, "isCrowd": 0}]
label (inner key) Class/label of the object in the bounding box
Required, String
"cat"
topX Ratio of x coordinate of top-left corner of the bounding box and width of the image
Required, Float in the range [0,1]
0.260
topY Ratio of y coordinate of top-left corner of the bounding box and height of the image
Required, Float in the range [0,1]
0.406
bottomX Ratio of x coordinate of bottom-right corner of the bounding box and width of the image
Required, Float in the range [0,1]
0.735
bottomY Ratio of y coordinate of bottom-right corner of the bounding box and height of the image
Required, Float in the range [0,1]
0.701
isCrowd Indicates whether the bounding box is around the crowd of objects. If this special flag is set, we skip this particular bounding box when calculating the metric.
Optional, Bool
0

Example of a JSONL file for object detection:

{"image_url": "azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_01.jpg", "image_details": {"format": "jpg", "width": "499px", "height": "666px"}, "label": [{"label": "can", "topX": 0.260, "topY": 0.406, "bottomX": 0.735, "bottomY": 0.701, "isCrowd": 0}]}
{"image_url": "azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_02.jpg", "image_details": {"format": "jpg", "width": "499px", "height": "666px"}, "label": [{"label": "carton", "topX": 0.172, "topY": 0.153, "bottomX": 0.432, "bottomY": 0.659, "isCrowd": 0}, {"label": "milk_bottle", "topX": 0.300, "topY": 0.566, "bottomX": 0.891, "bottomY": 0.735, "isCrowd": 0}]}
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.
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{"image_url": "azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_n.jpg", "image_details": {"format": "jpg", "width": "499px", "height": "666px"}, "label": [{"label": "carton", "topX": 0.0180, "topY": 0.297, "bottomX": 0.380, "bottomY": 0.836, "isCrowd": 0}, {"label": "milk_bottle", "topX": 0.454, "topY": 0.348, "bottomX": 0.613, "bottomY": 0.683, "isCrowd": 0}, {"label": "water_bottle", "topX": 0.667, "topY": 0.279, "bottomX": 0.841, "bottomY": 0.615, "isCrowd": 0}]}

Image example for object detection.

Instance segmentation

For instance segmentation, automated ML only support polygon as input and output, no masks.

The following is an example JSONL file, for instance, segmentation.

{
   "image_url":"azureml://subscriptions/<my-subscription-id>/resourcegroups/<my-resource-group>/workspaces/<my-workspace>/datastores/<my-datastore>/paths/<path_to_image>",
   "image_details":{
      "format":"image_format",
      "width":"image_width",
      "height":"image_height"
   },
   "label":[
      {
         "label":"class_name",
         "isCrowd":"isCrowd",
         "polygon":[["x1", "y1", "x2", "y2", "x3", "y3", "...", "xn", "yn"]]
      }
   ]
}
Key Description Example
image_url Image location in Azure Machine Learning datastore.
my-subscription-id needs to be replaced by the Azure subscription where images are located. More information about Azure subscriptions can be found here. Similarly my-resource-group, my-workspace, my-datastore should be replaced by resource group name, workspace name and datastore name respectively.
path_to_image should be the full path to image on datastore.
Required, String
"azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_01.jpg"
image_details Image details
Optional, Dictionary
"image_details":{"format": "jpg", "width": "400px", "height": "258px"}
format Image type
Optional, String from {"jpg", "jpeg", "png", "jpe", "jfif", "bmp", "tif", "tiff" }
"jpg" or "jpeg" or "png" or "jpe" or "jfif" or "bmp" or "tif" or "tiff"
width Width of the image
Optional, String or Positive Integer
"499px" or 499
height Height of the image
Optional, String or Positive Integer
"665px" or 665
label (outer key) List of masks, where each mask is a dictionary of label, isCrowd, polygon coordinates
Required, List of dictionaries
[{"label": "can", "isCrowd": 0, "polygon": [[0.577, 0.689,
0.562, 0.681,
0.559, 0.686]]}]
label (inner key) Class/label of the object in the mask
Required, String
"cat"
isCrowd Indicates whether the mask is around the crowd of objects
Optional, Bool
0
polygon Polygon coordinates for the object
Required, List of list for multiple segments of the same instance. Float values in the range [0,1]
[[0.577, 0.689, 0.567, 0.689, 0.559, 0.686]]

Example of a JSONL file for Instance Segmentation:

{"image_url": "azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_01.jpg", "image_details": {"format": "jpg", "width": "499px", "height": "666px"}, "label": [{"label": "can", "isCrowd": 0, "polygon": [[0.577, 0.689, 0.567, 0.689, 0.559, 0.686, 0.380, 0.593, 0.304, 0.555, 0.294, 0.545, 0.290, 0.534, 0.274, 0.512, 0.2705, 0.496, 0.270, 0.478, 0.284, 0.453, 0.308, 0.432, 0.326, 0.423, 0.356, 0.415, 0.418, 0.417, 0.635, 0.493, 0.683, 0.507, 0.701, 0.518, 0.709, 0.528, 0.713, 0.545, 0.719, 0.554, 0.719, 0.579, 0.713, 0.597, 0.697, 0.621, 0.695, 0.629, 0.631, 0.678, 0.619, 0.683, 0.595, 0.683, 0.577, 0.689]]}]}
{"image_url": "azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_02.jpg", "image_details": {"format": "jpg", "width": "499px", "height": "666px"}, "label": [{"label": "carton", "isCrowd": 0, "polygon": [[0.240, 0.65, 0.234, 0.654, 0.230, 0.647, 0.210, 0.512, 0.202, 0.403, 0.182, 0.267, 0.184, 0.243, 0.180, 0.166, 0.186, 0.159, 0.198, 0.156, 0.396, 0.162, 0.408, 0.169, 0.406, 0.217, 0.414, 0.249, 0.422, 0.262, 0.422, 0.569, 0.342, 0.569, 0.334, 0.572, 0.320, 0.585, 0.308, 0.624, 0.306, 0.648, 0.240, 0.657]]}, {"label": "milk_bottle",  "isCrowd": 0, "polygon": [[0.675, 0.732, 0.635, 0.731, 0.621, 0.725, 0.573, 0.717, 0.516, 0.717, 0.505, 0.720, 0.462, 0.722, 0.438, 0.719, 0.396, 0.719, 0.358, 0.714, 0.334, 0.714, 0.322, 0.711, 0.312, 0.701, 0.306, 0.687, 0.304, 0.663, 0.308, 0.630, 0.320, 0.596, 0.32, 0.588, 0.326, 0.579]]}]}
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.
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{"image_url": "azureml://subscriptions/my-subscription-id/resourcegroups/my-resource-group/workspaces/my-workspace/datastores/my-datastore/paths/image_data/Image_n.jpg", "image_details": {"format": "jpg", "width": "499px", "height": "666px"}, "label": [{"label": "water_bottle", "isCrowd": 0, "polygon": [[0.334, 0.626, 0.304, 0.621, 0.254, 0.603, 0.164, 0.605, 0.158, 0.602, 0.146, 0.602, 0.142, 0.608, 0.094, 0.612, 0.084, 0.599, 0.080, 0.585, 0.080, 0.539, 0.082, 0.536, 0.092, 0.533, 0.126, 0.530, 0.132, 0.533, 0.144, 0.533, 0.162, 0.525, 0.172, 0.525, 0.186, 0.521, 0.196, 0.521 ]]}, {"label": "milk_bottle", "isCrowd": 0, "polygon": [[0.392, 0.773, 0.380, 0.732, 0.379, 0.767, 0.367, 0.755, 0.362, 0.735, 0.362, 0.714, 0.352, 0.644, 0.352, 0.611, 0.362, 0.597, 0.40, 0.593, 0.444,  0.494, 0.588, 0.515, 0.585, 0.621, 0.588, 0.671, 0.582, 0.713, 0.572, 0.753 ]]}]}

Image example for instance segmentation.

Data schema for online scoring

In this section, we document the input data format required to make predictions using a deployed model.

Input format

The following JSON is the input format needed to generate predictions on any task using task-specific model endpoint.

{
   "input_data": {
      "columns": [
         "image"
      ],
      "data": [
         "image_in_base64_string_format"
      ]
   }
}

This json is a dictionary with outer key input_data and inner keys columns, data as described in the following table. The endpoint accepts a json string in the above format and converts it into a dataframe of samples required by the scoring script. Each input image in the request_json["input_data"]["data"] section of the json is a base64 encoded string.

Key Description
input_data
(outer key)
It's an outer key in json request. input_data is a dictionary that accepts input image samples
Required, Dictionary
columns
(inner key)
Column names to use to create dataframe. It accepts only one column with image as column name.
Required, List
data
(inner key)
List of base64 encoded images
Required, List

After we deploy the mlflow model, we can use the following code snippet to get predictions for all tasks.

# Create request json
import base64

sample_image = os.path.join(dataset_dir, "images", "1.jpg")


def read_image(image_path):
    with open(image_path, "rb") as f:
        return f.read()


request_json = {
    "input_data": {
        "columns": ["image"],
        "data": [base64.encodebytes(read_image(sample_image)).decode("utf-8")],
    }
}
import json

request_file_name = "sample_request_data.json"

with open(request_file_name, "w") as request_file:
    json.dump(request_json, request_file)
resp = ml_client.online_endpoints.invoke(
    endpoint_name=online_endpoint_name,
    deployment_name=deployment.name,
    request_file=request_file_name,
)

Output format

Predictions made on model endpoints follow different structure depending on the task type. This section explores the output data formats for multi-class, multi-label image classification, object detection, and instance segmentation tasks.

The following schemas are applicable when the input request contains one image.

Image classification (binary/multi-class)

Endpoint for image classification returns all the labels in the dataset and their probability scores for the input image in the following format. visualizations and attributions are related to explainability and when the request is only for scoring, these keys will not be included in the output. For more information on explainability input and output schema for image classification, see the explainability for image classification section.

[
   {
      "probs": [
         2.098e-06,
         4.783e-08,
         0.999,
         8.637e-06
      ],
      "labels": [
         "can",
         "carton",
         "milk_bottle",
         "water_bottle"
      ]
   }
]

Image classification multi-label

For image classification multi-label, model endpoint returns labels and their probabilities. visualizations and attributions are related to explainability and when the request is only for scoring, these keys will not be included in the output. For more information on explainability input and output schema for multi-label classification, see the explainability for image classification multi-label section.

[
   {
      "probs": [
         0.997,
         0.960,
         0.982,
         0.025
      ],
      "labels": [
         "can",
         "carton",
         "milk_bottle",
         "water_bottle"
      ]
   }
]

Object detection

Object detection model returns multiple boxes with their scaled top-left and bottom-right coordinates along with box label and confidence score.

[
   {
      "boxes": [
         {
            "box": {
               "topX": 0.224,
               "topY": 0.285,
               "bottomX": 0.399,
               "bottomY": 0.620
            },
            "label": "milk_bottle",
            "score": 0.937
         },
         {
            "box": {
               "topX": 0.664,
               "topY": 0.484,
               "bottomX": 0.959,
               "bottomY": 0.812
            },
            "label": "can",
            "score": 0.891
         },
         {
            "box": {
               "topX": 0.423,
               "topY": 0.253,
               "bottomX": 0.632,
               "bottomY": 0.725
            },
            "label": "water_bottle",
            "score": 0.876
         }
      ]
   }
]

Instance segmentation

In instance segmentation, output consists of multiple boxes with their scaled top-left and bottom-right coordinates, labels, confidence scores, and polygons (not masks). Here, the polygon values are in the same format that we discussed in the schema section.

[
    {
       "boxes": [
          {
             "box": {
                "topX": 0.679,
                "topY": 0.491,
                "bottomX": 0.926,
                "bottomY": 0.810
             },
             "label": "can",
             "score": 0.992,
             "polygon": [
                [
                   0.82, 0.811, 0.771, 0.810, 0.758, 0.805, 0.741, 0.797, 0.735, 0.791, 0.718, 0.785, 0.715, 0.778, 0.706, 0.775, 0.696, 0.758, 0.695, 0.717, 0.698, 0.567, 0.705, 0.552, 0.706, 0.540, 0.725, 0.520, 0.735, 0.505, 0.745, 0.502, 0.755, 0.493
                ]
             ]
          },
          {
             "box": {
                "topX": 0.220,
                "topY": 0.298,
                "bottomX": 0.397,
                "bottomY": 0.601
             },
             "label": "milk_bottle",
             "score": 0.989,
             "polygon": [
                [
                   0.365, 0.602, 0.273, 0.602, 0.26, 0.595, 0.263, 0.588, 0.251, 0.546, 0.248, 0.501, 0.25, 0.485, 0.246, 0.478, 0.245, 0.463, 0.233, 0.442, 0.231, 0.43, 0.226, 0.423, 0.226, 0.408, 0.234, 0.385, 0.241, 0.371, 0.238, 0.345, 0.234, 0.335, 0.233, 0.325, 0.24, 0.305, 0.586, 0.38, 0.592, 0.375, 0.598, 0.365
                ]
             ]
          },
          {
             "box": {
                "topX": 0.433,
                "topY": 0.280,
                "bottomX": 0.621,
                "bottomY": 0.679
             },
             "label": "water_bottle",
             "score": 0.988,
             "polygon": [
                [
                   0.576, 0.680, 0.501, 0.680, 0.475, 0.675, 0.460, 0.625, 0.445, 0.630, 0.443, 0.572, 0.440, 0.560, 0.435, 0.515, 0.431, 0.501, 0.431, 0.433, 0.433, 0.426, 0.445, 0.417, 0.456, 0.407, 0.465, 0.381, 0.468, 0.327, 0.471, 0.318
                ]
             ]
          }
       ]
    }
]

Data format for Online Scoring and Explainability (XAI)

Important

These settings are currently in public preview. They are provided without a service-level agreement. Certain features might not be supported or might have constrained capabilities. For more information, see Supplemental Terms of Use for Microsoft Azure Previews.

Warning

Explainability is supported only for multi-class classification and multi-label classification. While generating explanations on online endpoint, if you encounter timeout issues, use batch scoring notebook (SDK v1) to generate explanations.

In this section, we document the input data format required to make predictions and generate explanations for the predicted class/classes using a deployed model. There's no separate deployment needed for explainability. The same endpoint for online scoring can be utilized to generate explanations. We just need to pass some extra explainability related parameters in input schema and get either visualizations of explanations and/or attribution score matrices (pixel level explanations).

Supported explainability methods:

Input format (XAI)

The following input formats are supported to generate predictions and explanations on any classification task using task-specific model endpoint. After we deploy the model, we can use the following schema to get predictions and explanations.

{
   "input_data": {
      "columns": ["image"],
      "data": [json.dumps({"image_base64": "image_in_base64_string_format", 
                           "model_explainability": True,
                           "xai_parameters": {}
                         })
      ]
   }
}

Along with the image, there are two extra parameters (model_explainability and xai_parameters) required in the input schema to generate explanations.

Key Description Default Value
image_base64 input image in base64 format
Required, String
-
model_explainability Whether to generate explanations or just the scoring
Optional, Bool
False
xai_parameters If model_explainability is True, then xai_parameters is a dictionary containing explainability algorithm related parameters with xai_algorithm, visualizations, attributions ask keys.
Optional, Dictionary
If xai_parameters isn't passed, then the xrai explainability algorithm is used with its default value
{"xai_algorithm": "xrai", "visualizations": True, "attributions": False}
xai_algorithm Name of the Explainability algorithm to be used. Supported XAI algorithms are {xrai, integrated_gradients, guided_gradcam, guided_backprop}
Optional, String
xrai
visualizations Whether to return visualizations of explanations.
Optional, Bool
True
attributions Whether to return feature attributions.
Optional, Bool
False
confidence_score_threshold_multilabel Confidence score threshold to select top classes to generate explanations in multi-label classification.
Optional, Float
0.5

Following table describes the supported schemas for explainability.

Type Schema
Inference on single image in base64 format Dictionary with image_base64 as key and value is base64 encoded image,
model_explainability key with True or False and xai_parameters dictionary with XAI algorithm specific parameters
Required, Json String
Works for one or more images

Each input image in the request_json, defined in the code below, is a base64 encoded string appended to the list request_json["input_data"]["data"]:

import base64
import json
# Get the details for online endpoint
endpoint = ml_client.online_endpoints.get(name=online_endpoint_name)

sample_image = "./test_image.jpg"

# Define explainability (XAI) parameters
model_explainability = True
xai_parameters = {"xai_algorithm": "xrai",
                  "visualizations": True,
                  "attributions": False}

def read_image(image_path):
    with open(image_path, "rb") as f:
        return f.read()

# Create request json
request_json = {

    "input_data": {
        "columns": ["image"],
        "data": [json.dumps({"image_base64": base64.encodebytes(read_image(sample_image)).decode("utf-8"),
                             "model_explainability": model_explainability,
                             "xai_parameters": xai_parameters})],
    }
}

request_file_name = "sample_request_data.json"

with open(request_file_name, "w") as request_file:
    json.dump(request_json, request_file)

resp = ml_client.online_endpoints.invoke(
    endpoint_name=online_endpoint_name,
    deployment_name=deployment.name,
    request_file=request_file_name,
)
predictions = json.loads(resp)

Output format (XAI)

Predictions made on model endpoints follow different schema depending on the task type. This section describes the output data formats for multi-class, multi-label image classification tasks.

The following schemas are defined for the case of two input images.

Image classification (binary/multi-class)

Output schema is same as described above except that visualizations and attributions key values are included, if these keys were set to True in the request.

If model_explainability, visualizations, attributions are set to True in the input request, then the output will have visualizations and attributions. More details on these parameters are explained in the following table. Visualizations and attributions are generated against a class that has the highest probability score.

Output key Description
visualizations Single image in base64 string format with type
Optional, String
attributions multi-dimensional array with pixel wise attribution scores of shape [3, valid_crop_size, valid_crop_size]
Optional, List
[
    {
       "probs": [
          0.006,
          9.345e-05,
          0.992,
          0.003
       ],
       "labels": [
          "can",
          "carton",
          "milk_bottle",
          "water_bottle"
       ],
       "visualizations": "iVBORw0KGgoAAAAN.....",
       "attributions": [[[-4.2969e-04, -1.3090e-03,  7.7791e-04,  ...,  2.6677e-04,
                          -5.5195e-03,  1.7989e-03],
                          .
                          .
                          .
                         [-5.8236e-03, -7.9108e-04, -2.6963e-03,  ...,  2.6517e-03,
                           1.2546e-03,  6.6507e-04]]]
    }
]

Image classification multi-label

The only difference in the output schema of multi-label classification compared to multi-class classification is that there can be multiple classes in each image for which explanations can be generated. So, visualizations is the list of base64 image strings and attributions is the list of attribution scores against each selected class based on the confidence_score_threshold_multilabel (default is 0.5).

If model_explainability, visualizations, attributions are set to True in the input request, then the output will have visualizations and attributions. More details on these parameters are explained in the following table. Visualizations and attributions are generated against all the classes that have the probability score greater than or equal to confidence_score_threshold_multilabel.

Output key Description
visualizations List of images in base64 string format with type
Optional, String
attributions List of multi-dimensional arrays with pixel wise attribution scores against each class, where each multi-dimensional array is of shape [3, valid_crop_size, valid_crop_size]
Optional, List

Warning

While generating explanations on online endpoint, make sure to select only few classes based on confidence score in order to avoid timeout issues on the endpoint or use the endpoint with GPU instance type. To generate explanations for large number of classes in multi-label classification, refer to batch scoring notebook (SDK v1).

[
    {
       "probs": [
          0.994,
          0.994,
          0.843,
          0.166
       ],
       "labels": [
          "can",
          "carton",
          "milk_bottle",
          "water_bottle"
       ],
       "visualizations": ["iVBORw0KGgoAAAAN.....", "iVBORw0KGgoAAAAN......", .....],
       "attributions": [
                        [[[-4.2969e-04, -1.3090e-03,  7.7791e-04,  ...,  2.6677e-04,
                           -5.5195e-03,  1.7989e-03],
                           .
                           .
                           .
                          [-5.8236e-03, -7.9108e-04, -2.6963e-03,  ...,  2.6517e-03,
                            1.2546e-03,  6.6507e-04]]],
                        .
                        .
                        .
                       ]
    }
]

Object detection

Warning

XAI is not supported. So, only scores are returned. For scoring example, refer to online scoring section.

Instance segmentation

Warning

XAI is not supported. So, only scores are returned. For scoring example, refer to online scoring section.

Note

The images used in this article are from the Fridge Objects dataset, copyright © Microsoft Corporation and available at computervision-recipes/01_training_introduction.ipynb under the MIT License.

Next steps