Microsoft.MachineLearningServices workspaces/schedules 2022-10-01-preview

Bicep resource definition

The workspaces/schedules resource type can be deployed with operations that target:

For a list of changed properties in each API version, see change log.

Resource format

To create a Microsoft.MachineLearningServices/workspaces/schedules resource, add the following Bicep to your template.

resource symbolicname 'Microsoft.MachineLearningServices/workspaces/schedules@2022-10-01-preview' = {
  name: 'string'
  properties: {
    action: {
      actionType: 'string'
      // For remaining properties, see ScheduleActionBase objects
    }
    description: 'string'
    displayName: 'string'
    isEnabled: bool
    properties: {
      {customized property}: 'string'
    }
    tags: {
      {customized property}: 'string'
    }
    trigger: {
      endTime: 'string'
      startTime: 'string'
      timeZone: 'string'
      triggerType: 'string'
      // For remaining properties, see TriggerBase objects
    }
  }
}

Nodes objects

Set the nodesValueType property to specify the type of object.

For All, use:

{
  nodesValueType: 'All'
}

DistributionConfiguration objects

Set the distributionType property to specify the type of object.

For Mpi, use:

{
  distributionType: 'Mpi'
  processCountPerInstance: int
}

For PyTorch, use:

{
  distributionType: 'PyTorch'
  processCountPerInstance: int
}

For TensorFlow, use:

{
  distributionType: 'TensorFlow'
  parameterServerCount: int
  workerCount: int
}

JobBaseProperties objects

Set the jobType property to specify the type of object.

For AutoML, use:

{
  environmentId: 'string'
  environmentVariables: {
    {customized property}: 'string'
  }
  jobType: 'AutoML'
  outputs: {
    {customized property}: {
      description: 'string'
      jobOutputType: 'string'
      // For remaining properties, see JobOutput objects
    }
  }
  resources: {
    dockerArgs: 'string'
    instanceCount: int
    instanceType: 'string'
    properties: {
      {customized property}: any(Azure.Bicep.Types.Concrete.AnyType)
    }
    shmSize: 'string'
  }
  taskDetails: {
    logVerbosity: 'string'
    targetColumnName: 'string'
    trainingData: {
      description: 'string'
      jobInputType: 'string'
      mode: 'string'
      uri: 'string'
    }
    taskType: 'string'
    // For remaining properties, see AutoMLVertical objects
  }
}

For Command, use:

{
  autologgerSettings: {
    mlflowAutologger: 'string'
  }
  codeId: 'string'
  command: 'string'
  distribution: {
    distributionType: 'string'
    // For remaining properties, see DistributionConfiguration objects
  }
  environmentId: 'string'
  environmentVariables: {
    {customized property}: 'string'
  }
  inputs: {
    {customized property}: {
      description: 'string'
      jobInputType: 'string'
      // For remaining properties, see JobInput objects
    }
  }
  jobType: 'Command'
  limits: {
    jobLimitsType: 'string'
    timeout: 'string'
  }
  outputs: {
    {customized property}: {
      description: 'string'
      jobOutputType: 'string'
      // For remaining properties, see JobOutput objects
    }
  }
  resources: {
    dockerArgs: 'string'
    instanceCount: int
    instanceType: 'string'
    properties: {
      {customized property}: any(Azure.Bicep.Types.Concrete.AnyType)
    }
    shmSize: 'string'
  }
}

For Labeling, use:

{
  dataConfiguration: {
    dataId: 'string'
    incrementalDataRefreshEnabled: bool
  }
  jobInstructions: {
    uri: 'string'
  }
  jobType: 'Labeling'
  labelCategories: {
    {customized property}: {
      classes: {
        {customized property}: {
          displayName: 'string'
          subclasses: {
            {customized property}: ...
          }
        }
      }
      displayName: 'string'
      multiSelectEnabled: bool
    }
  }
  labelingJobMediaProperties: {
    mediaType: 'string'
    // For remaining properties, see LabelingJobMediaProperties objects
  }
  mlAssistConfiguration: {
    mlAssist: 'string'
    // For remaining properties, see MLAssistConfiguration objects
  }
}

For Pipeline, use:

{
  inputs: {
    {customized property}: {
      description: 'string'
      jobInputType: 'string'
      // For remaining properties, see JobInput objects
    }
  }
  jobs: {
    {customized property}: any(Azure.Bicep.Types.Concrete.AnyType)
  }
  jobType: 'Pipeline'
  outputs: {
    {customized property}: {
      description: 'string'
      jobOutputType: 'string'
      // For remaining properties, see JobOutput objects
    }
  }
  settings: any(Azure.Bicep.Types.Concrete.AnyType)
  sourceJobId: 'string'
}

For Spark, use:

{
  archives: [
    'string'
  ]
  args: 'string'
  codeId: 'string'
  conf: {
    {customized property}: 'string'
  }
  entry: {
    sparkJobEntryType: 'string'
    // For remaining properties, see SparkJobEntry objects
  }
  environmentId: 'string'
  files: [
    'string'
  ]
  inputs: {
    {customized property}: {
      description: 'string'
      jobInputType: 'string'
      // For remaining properties, see JobInput objects
    }
  }
  jars: [
    'string'
  ]
  jobType: 'Spark'
  outputs: {
    {customized property}: {
      description: 'string'
      jobOutputType: 'string'
      // For remaining properties, see JobOutput objects
    }
  }
  pyFiles: [
    'string'
  ]
  resources: {
    instanceType: 'string'
    runtimeVersion: 'string'
  }
}

For Sweep, use:

{
  earlyTermination: {
    delayEvaluation: int
    evaluationInterval: int
    policyType: 'string'
    // For remaining properties, see EarlyTerminationPolicy objects
  }
  inputs: {
    {customized property}: {
      description: 'string'
      jobInputType: 'string'
      // For remaining properties, see JobInput objects
    }
  }
  jobType: 'Sweep'
  limits: {
    jobLimitsType: 'string'
    maxConcurrentTrials: int
    maxTotalTrials: int
    timeout: 'string'
    trialTimeout: 'string'
  }
  objective: {
    goal: 'string'
    primaryMetric: 'string'
  }
  outputs: {
    {customized property}: {
      description: 'string'
      jobOutputType: 'string'
      // For remaining properties, see JobOutput objects
    }
  }
  samplingAlgorithm: {
    samplingAlgorithmType: 'string'
    // For remaining properties, see SamplingAlgorithm objects
  }
  searchSpace: any(Azure.Bicep.Types.Concrete.AnyType)
  trial: {
    codeId: 'string'
    command: 'string'
    distribution: {
      distributionType: 'string'
      // For remaining properties, see DistributionConfiguration objects
    }
    environmentId: 'string'
    environmentVariables: {
      {customized property}: 'string'
    }
    resources: {
      dockerArgs: 'string'
      instanceCount: int
      instanceType: 'string'
      properties: {
        {customized property}: any(Azure.Bicep.Types.Concrete.AnyType)
      }
      shmSize: 'string'
    }
  }
}

ScheduleActionBase objects

Set the actionType property to specify the type of object.

For CreateJob, use:

{
  actionType: 'CreateJob'
  jobDefinition: {
    componentId: 'string'
    computeId: 'string'
    description: 'string'
    displayName: 'string'
    experimentName: 'string'
    identity: {
      identityType: 'string'
      // For remaining properties, see IdentityConfiguration objects
    }
    isArchived: bool
    properties: {
      {customized property}: 'string'
    }
    services: {
      {customized property}: {
        endpoint: 'string'
        jobServiceType: 'string'
        nodes: {
          nodesValueType: 'string'
          // For remaining properties, see Nodes objects
        }
        port: int
        properties: {
          {customized property}: 'string'
        }
      }
    }
    tags: {
      {customized property}: 'string'
    }
    jobType: 'string'
    // For remaining properties, see JobBaseProperties objects
  }
}

For InvokeBatchEndpoint, use:

{
  actionType: 'InvokeBatchEndpoint'
  endpointInvocationDefinition: any(Azure.Bicep.Types.Concrete.AnyType)
}

SparkJobEntry objects

Set the sparkJobEntryType property to specify the type of object.

For SparkJobPythonEntry, use:

{
  file: 'string'
  sparkJobEntryType: 'SparkJobPythonEntry'
}

For SparkJobScalaEntry, use:

{
  className: 'string'
  sparkJobEntryType: 'SparkJobScalaEntry'
}

TargetLags objects

Set the mode property to specify the type of object.

For Auto, use:

{
  mode: 'Auto'
}

For Custom, use:

{
  mode: 'Custom'
  values: [
    int
  ]
}

LabelingJobMediaProperties objects

Set the mediaType property to specify the type of object.

For Image, use:

{
  annotationType: 'string'
  mediaType: 'Image'
}

For Text, use:

{
  annotationType: 'string'
  mediaType: 'Text'
}

EarlyTerminationPolicy objects

Set the policyType property to specify the type of object.

For Bandit, use:

{
  policyType: 'Bandit'
  slackAmount: int
  slackFactor: int
}

For MedianStopping, use:

{
  policyType: 'MedianStopping'
}

For TruncationSelection, use:

{
  policyType: 'TruncationSelection'
  truncationPercentage: int
}

IdentityConfiguration objects

Set the identityType property to specify the type of object.

For AMLToken, use:

{
  identityType: 'AMLToken'
}

For Managed, use:

{
  clientId: 'string'
  identityType: 'Managed'
  objectId: 'string'
  resourceId: 'string'
}

For UserIdentity, use:

{
  identityType: 'UserIdentity'
}

MLAssistConfiguration objects

Set the mlAssist property to specify the type of object.

For Disabled, use:

{
  mlAssist: 'Disabled'
}

For Enabled, use:

{
  inferencingComputeBinding: 'string'
  mlAssist: 'Enabled'
  trainingComputeBinding: 'string'
}

JobInput objects

Set the jobInputType property to specify the type of object.

For custom_model, use:

{
  jobInputType: 'custom_model'
  mode: 'string'
  uri: 'string'
}

For literal, use:

{
  jobInputType: 'literal'
  value: 'string'
}

For mlflow_model, use:

{
  jobInputType: 'mlflow_model'
  mode: 'string'
  uri: 'string'
}

For mltable, use:

{
  jobInputType: 'mltable'
  mode: 'string'
  uri: 'string'
}

For triton_model, use:

{
  jobInputType: 'triton_model'
  mode: 'string'
  uri: 'string'
}

For uri_file, use:

{
  jobInputType: 'uri_file'
  mode: 'string'
  uri: 'string'
}

For uri_folder, use:

{
  jobInputType: 'uri_folder'
  mode: 'string'
  uri: 'string'
}

ForecastHorizon objects

Set the mode property to specify the type of object.

For Auto, use:

{
  mode: 'Auto'
}

For Custom, use:

{
  mode: 'Custom'
  value: int
}

NCrossValidations objects

Set the mode property to specify the type of object.

For Auto, use:

{
  mode: 'Auto'
}

For Custom, use:

{
  mode: 'Custom'
  value: int
}

SamplingAlgorithm objects

Set the samplingAlgorithmType property to specify the type of object.

For Bayesian, use:

{
  samplingAlgorithmType: 'Bayesian'
}

For Grid, use:

{
  samplingAlgorithmType: 'Grid'
}

For Random, use:

{
  rule: 'string'
  samplingAlgorithmType: 'Random'
  seed: int
}

TriggerBase objects

Set the triggerType property to specify the type of object.

For Cron, use:

{
  expression: 'string'
  triggerType: 'Cron'
}

For Recurrence, use:

{
  frequency: 'string'
  interval: int
  schedule: {
    hours: [
      int
    ]
    minutes: [
      int
    ]
    monthDays: [
      int
    ]
    weekDays: [
      'string'
    ]
  }
  triggerType: 'Recurrence'
}

TargetRollingWindowSize objects

Set the mode property to specify the type of object.

For Auto, use:

{
  mode: 'Auto'
}

For Custom, use:

{
  mode: 'Custom'
  value: int
}

JobOutput objects

Set the jobOutputType property to specify the type of object.

For custom_model, use:

{
  jobOutputType: 'custom_model'
  mode: 'string'
  uri: 'string'
}

For mlflow_model, use:

{
  jobOutputType: 'mlflow_model'
  mode: 'string'
  uri: 'string'
}

For mltable, use:

{
  jobOutputType: 'mltable'
  mode: 'string'
  uri: 'string'
}

For triton_model, use:

{
  jobOutputType: 'triton_model'
  mode: 'string'
  uri: 'string'
}

For uri_file, use:

{
  jobOutputType: 'uri_file'
  mode: 'string'
  uri: 'string'
}

For uri_folder, use:

{
  jobOutputType: 'uri_folder'
  mode: 'string'
  uri: 'string'
}

AutoMLVertical objects

Set the taskType property to specify the type of object.

For Classification, use:

{
  cvSplitColumnNames: [
    'string'
  ]
  featurizationSettings: {
    blockedTransformers: [
      'string'
    ]
    columnNameAndTypes: {
      {customized property}: 'string'
    }
    datasetLanguage: 'string'
    enableDnnFeaturization: bool
    mode: 'string'
    transformerParams: {
      {customized property}: [
        {
          fields: [
            'string'
          ]
          parameters: any(Azure.Bicep.Types.Concrete.AnyType)
        }
      ]
    }
  }
  fixedParameters: {
    booster: 'string'
    boostingType: 'string'
    growPolicy: 'string'
    learningRate: int
    maxBin: int
    maxDepth: int
    maxLeaves: int
    minDataInLeaf: int
    minSplitGain: int
    modelName: 'string'
    nEstimators: int
    numLeaves: int
    preprocessorName: 'string'
    regAlpha: int
    regLambda: int
    subsample: int
    subsampleFreq: int
    treeMethod: 'string'
    withMean: bool
    withStd: bool
  }
  limitSettings: {
    enableEarlyTermination: bool
    exitScore: int
    maxConcurrentTrials: int
    maxCoresPerTrial: int
    maxTrials: int
    sweepConcurrentTrials: int
    sweepTrials: int
    timeout: 'string'
    trialTimeout: 'string'
  }
  nCrossValidations: {
    mode: 'string'
    // For remaining properties, see NCrossValidations objects
  }
  positiveLabel: 'string'
  primaryMetric: 'string'
  searchSpace: [
    {
      booster: 'string'
      boostingType: 'string'
      growPolicy: 'string'
      learningRate: 'string'
      maxBin: 'string'
      maxDepth: 'string'
      maxLeaves: 'string'
      minDataInLeaf: 'string'
      minSplitGain: 'string'
      modelName: 'string'
      nEstimators: 'string'
      numLeaves: 'string'
      preprocessorName: 'string'
      regAlpha: 'string'
      regLambda: 'string'
      subsample: 'string'
      subsampleFreq: 'string'
      treeMethod: 'string'
      withMean: 'string'
      withStd: 'string'
    }
  ]
  sweepSettings: {
    earlyTermination: {
      delayEvaluation: int
      evaluationInterval: int
      policyType: 'string'
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm: 'string'
  }
  taskType: 'Classification'
  testData: {
    description: 'string'
    jobInputType: 'string'
    mode: 'string'
    uri: 'string'
  }
  testDataSize: int
  trainingSettings: {
    allowedTrainingAlgorithms: [
      'string'
    ]
    blockedTrainingAlgorithms: [
      'string'
    ]
    enableDnnTraining: bool
    enableModelExplainability: bool
    enableOnnxCompatibleModels: bool
    enableStackEnsemble: bool
    enableVoteEnsemble: bool
    ensembleModelDownloadTimeout: 'string'
    stackEnsembleSettings: {
      stackMetaLearnerKWargs: any(Azure.Bicep.Types.Concrete.AnyType)
      stackMetaLearnerTrainPercentage: int
      stackMetaLearnerType: 'string'
    }
  }
  validationData: {
    description: 'string'
    jobInputType: 'string'
    mode: 'string'
    uri: 'string'
  }
  validationDataSize: int
  weightColumnName: 'string'
}

For Forecasting, use:

{
  cvSplitColumnNames: [
    'string'
  ]
  featurizationSettings: {
    blockedTransformers: [
      'string'
    ]
    columnNameAndTypes: {
      {customized property}: 'string'
    }
    datasetLanguage: 'string'
    enableDnnFeaturization: bool
    mode: 'string'
    transformerParams: {
      {customized property}: [
        {
          fields: [
            'string'
          ]
          parameters: any(Azure.Bicep.Types.Concrete.AnyType)
        }
      ]
    }
  }
  fixedParameters: {
    booster: 'string'
    boostingType: 'string'
    growPolicy: 'string'
    learningRate: int
    maxBin: int
    maxDepth: int
    maxLeaves: int
    minDataInLeaf: int
    minSplitGain: int
    modelName: 'string'
    nEstimators: int
    numLeaves: int
    preprocessorName: 'string'
    regAlpha: int
    regLambda: int
    subsample: int
    subsampleFreq: int
    treeMethod: 'string'
    withMean: bool
    withStd: bool
  }
  forecastingSettings: {
    countryOrRegionForHolidays: 'string'
    cvStepSize: int
    featureLags: 'string'
    forecastHorizon: {
      mode: 'string'
      // For remaining properties, see ForecastHorizon objects
    }
    frequency: 'string'
    seasonality: {
      mode: 'string'
      // For remaining properties, see Seasonality objects
    }
    shortSeriesHandlingConfig: 'string'
    targetAggregateFunction: 'string'
    targetLags: {
      mode: 'string'
      // For remaining properties, see TargetLags objects
    }
    targetRollingWindowSize: {
      mode: 'string'
      // For remaining properties, see TargetRollingWindowSize objects
    }
    timeColumnName: 'string'
    timeSeriesIdColumnNames: [
      'string'
    ]
    useStl: 'string'
  }
  limitSettings: {
    enableEarlyTermination: bool
    exitScore: int
    maxConcurrentTrials: int
    maxCoresPerTrial: int
    maxTrials: int
    sweepConcurrentTrials: int
    sweepTrials: int
    timeout: 'string'
    trialTimeout: 'string'
  }
  nCrossValidations: {
    mode: 'string'
    // For remaining properties, see NCrossValidations objects
  }
  primaryMetric: 'string'
  searchSpace: [
    {
      booster: 'string'
      boostingType: 'string'
      growPolicy: 'string'
      learningRate: 'string'
      maxBin: 'string'
      maxDepth: 'string'
      maxLeaves: 'string'
      minDataInLeaf: 'string'
      minSplitGain: 'string'
      modelName: 'string'
      nEstimators: 'string'
      numLeaves: 'string'
      preprocessorName: 'string'
      regAlpha: 'string'
      regLambda: 'string'
      subsample: 'string'
      subsampleFreq: 'string'
      treeMethod: 'string'
      withMean: 'string'
      withStd: 'string'
    }
  ]
  sweepSettings: {
    earlyTermination: {
      delayEvaluation: int
      evaluationInterval: int
      policyType: 'string'
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm: 'string'
  }
  taskType: 'Forecasting'
  testData: {
    description: 'string'
    jobInputType: 'string'
    mode: 'string'
    uri: 'string'
  }
  testDataSize: int
  trainingSettings: {
    allowedTrainingAlgorithms: [
      'string'
    ]
    blockedTrainingAlgorithms: [
      'string'
    ]
    enableDnnTraining: bool
    enableModelExplainability: bool
    enableOnnxCompatibleModels: bool
    enableStackEnsemble: bool
    enableVoteEnsemble: bool
    ensembleModelDownloadTimeout: 'string'
    stackEnsembleSettings: {
      stackMetaLearnerKWargs: any(Azure.Bicep.Types.Concrete.AnyType)
      stackMetaLearnerTrainPercentage: int
      stackMetaLearnerType: 'string'
    }
  }
  validationData: {
    description: 'string'
    jobInputType: 'string'
    mode: 'string'
    uri: 'string'
  }
  validationDataSize: int
  weightColumnName: 'string'
}

For ImageClassification, use:

{
  limitSettings: {
    maxConcurrentTrials: int
    maxTrials: int
    timeout: 'string'
  }
  modelSettings: {
    advancedSettings: 'string'
    amsGradient: bool
    augmentations: 'string'
    beta1: int
    beta2: int
    checkpointFrequency: int
    checkpointModel: {
      description: 'string'
      jobInputType: 'string'
      mode: 'string'
      uri: 'string'
    }
    checkpointRunId: 'string'
    distributed: bool
    earlyStopping: bool
    earlyStoppingDelay: int
    earlyStoppingPatience: int
    enableOnnxNormalization: bool
    evaluationFrequency: int
    gradientAccumulationStep: int
    layersToFreeze: int
    learningRate: int
    learningRateScheduler: 'string'
    modelName: 'string'
    momentum: int
    nesterov: bool
    numberOfEpochs: int
    numberOfWorkers: int
    optimizer: 'string'
    randomSeed: int
    stepLRGamma: int
    stepLRStepSize: int
    trainingBatchSize: int
    trainingCropSize: int
    validationBatchSize: int
    validationCropSize: int
    validationResizeSize: int
    warmupCosineLRCycles: int
    warmupCosineLRWarmupEpochs: int
    weightDecay: int
    weightedLoss: int
  }
  primaryMetric: 'string'
  searchSpace: [
    {
      amsGradient: 'string'
      augmentations: 'string'
      beta1: 'string'
      beta2: 'string'
      distributed: 'string'
      earlyStopping: 'string'
      earlyStoppingDelay: 'string'
      earlyStoppingPatience: 'string'
      enableOnnxNormalization: 'string'
      evaluationFrequency: 'string'
      gradientAccumulationStep: 'string'
      layersToFreeze: 'string'
      learningRate: 'string'
      learningRateScheduler: 'string'
      modelName: 'string'
      momentum: 'string'
      nesterov: 'string'
      numberOfEpochs: 'string'
      numberOfWorkers: 'string'
      optimizer: 'string'
      randomSeed: 'string'
      stepLRGamma: 'string'
      stepLRStepSize: 'string'
      trainingBatchSize: 'string'
      trainingCropSize: 'string'
      validationBatchSize: 'string'
      validationCropSize: 'string'
      validationResizeSize: 'string'
      warmupCosineLRCycles: 'string'
      warmupCosineLRWarmupEpochs: 'string'
      weightDecay: 'string'
      weightedLoss: 'string'
    }
  ]
  sweepSettings: {
    earlyTermination: {
      delayEvaluation: int
      evaluationInterval: int
      policyType: 'string'
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm: 'string'
  }
  taskType: 'ImageClassification'
  validationData: {
    description: 'string'
    jobInputType: 'string'
    mode: 'string'
    uri: 'string'
  }
  validationDataSize: int
}

For ImageClassificationMultilabel, use:

{
  limitSettings: {
    maxConcurrentTrials: int
    maxTrials: int
    timeout: 'string'
  }
  modelSettings: {
    advancedSettings: 'string'
    amsGradient: bool
    augmentations: 'string'
    beta1: int
    beta2: int
    checkpointFrequency: int
    checkpointModel: {
      description: 'string'
      jobInputType: 'string'
      mode: 'string'
      uri: 'string'
    }
    checkpointRunId: 'string'
    distributed: bool
    earlyStopping: bool
    earlyStoppingDelay: int
    earlyStoppingPatience: int
    enableOnnxNormalization: bool
    evaluationFrequency: int
    gradientAccumulationStep: int
    layersToFreeze: int
    learningRate: int
    learningRateScheduler: 'string'
    modelName: 'string'
    momentum: int
    nesterov: bool
    numberOfEpochs: int
    numberOfWorkers: int
    optimizer: 'string'
    randomSeed: int
    stepLRGamma: int
    stepLRStepSize: int
    trainingBatchSize: int
    trainingCropSize: int
    validationBatchSize: int
    validationCropSize: int
    validationResizeSize: int
    warmupCosineLRCycles: int
    warmupCosineLRWarmupEpochs: int
    weightDecay: int
    weightedLoss: int
  }
  primaryMetric: 'string'
  searchSpace: [
    {
      amsGradient: 'string'
      augmentations: 'string'
      beta1: 'string'
      beta2: 'string'
      distributed: 'string'
      earlyStopping: 'string'
      earlyStoppingDelay: 'string'
      earlyStoppingPatience: 'string'
      enableOnnxNormalization: 'string'
      evaluationFrequency: 'string'
      gradientAccumulationStep: 'string'
      layersToFreeze: 'string'
      learningRate: 'string'
      learningRateScheduler: 'string'
      modelName: 'string'
      momentum: 'string'
      nesterov: 'string'
      numberOfEpochs: 'string'
      numberOfWorkers: 'string'
      optimizer: 'string'
      randomSeed: 'string'
      stepLRGamma: 'string'
      stepLRStepSize: 'string'
      trainingBatchSize: 'string'
      trainingCropSize: 'string'
      validationBatchSize: 'string'
      validationCropSize: 'string'
      validationResizeSize: 'string'
      warmupCosineLRCycles: 'string'
      warmupCosineLRWarmupEpochs: 'string'
      weightDecay: 'string'
      weightedLoss: 'string'
    }
  ]
  sweepSettings: {
    earlyTermination: {
      delayEvaluation: int
      evaluationInterval: int
      policyType: 'string'
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm: 'string'
  }
  taskType: 'ImageClassificationMultilabel'
  validationData: {
    description: 'string'
    jobInputType: 'string'
    mode: 'string'
    uri: 'string'
  }
  validationDataSize: int
}

For ImageInstanceSegmentation, use:

{
  limitSettings: {
    maxConcurrentTrials: int
    maxTrials: int
    timeout: 'string'
  }
  modelSettings: {
    advancedSettings: 'string'
    amsGradient: bool
    augmentations: 'string'
    beta1: int
    beta2: int
    boxDetectionsPerImage: int
    boxScoreThreshold: int
    checkpointFrequency: int
    checkpointModel: {
      description: 'string'
      jobInputType: 'string'
      mode: 'string'
      uri: 'string'
    }
    checkpointRunId: 'string'
    distributed: bool
    earlyStopping: bool
    earlyStoppingDelay: int
    earlyStoppingPatience: int
    enableOnnxNormalization: bool
    evaluationFrequency: int
    gradientAccumulationStep: int
    imageSize: int
    layersToFreeze: int
    learningRate: int
    learningRateScheduler: 'string'
    maxSize: int
    minSize: int
    modelName: 'string'
    modelSize: 'string'
    momentum: int
    multiScale: bool
    nesterov: bool
    nmsIouThreshold: int
    numberOfEpochs: int
    numberOfWorkers: int
    optimizer: 'string'
    randomSeed: int
    stepLRGamma: int
    stepLRStepSize: int
    tileGridSize: 'string'
    tileOverlapRatio: int
    tilePredictionsNmsThreshold: int
    trainingBatchSize: int
    validationBatchSize: int
    validationIouThreshold: int
    validationMetricType: 'string'
    warmupCosineLRCycles: int
    warmupCosineLRWarmupEpochs: int
    weightDecay: int
  }
  primaryMetric: 'string'
  searchSpace: [
    {
      amsGradient: 'string'
      augmentations: 'string'
      beta1: 'string'
      beta2: 'string'
      boxDetectionsPerImage: 'string'
      boxScoreThreshold: 'string'
      distributed: 'string'
      earlyStopping: 'string'
      earlyStoppingDelay: 'string'
      earlyStoppingPatience: 'string'
      enableOnnxNormalization: 'string'
      evaluationFrequency: 'string'
      gradientAccumulationStep: 'string'
      imageSize: 'string'
      layersToFreeze: 'string'
      learningRate: 'string'
      learningRateScheduler: 'string'
      maxSize: 'string'
      minSize: 'string'
      modelName: 'string'
      modelSize: 'string'
      momentum: 'string'
      multiScale: 'string'
      nesterov: 'string'
      nmsIouThreshold: 'string'
      numberOfEpochs: 'string'
      numberOfWorkers: 'string'
      optimizer: 'string'
      randomSeed: 'string'
      stepLRGamma: 'string'
      stepLRStepSize: 'string'
      tileGridSize: 'string'
      tileOverlapRatio: 'string'
      tilePredictionsNmsThreshold: 'string'
      trainingBatchSize: 'string'
      validationBatchSize: 'string'
      validationIouThreshold: 'string'
      validationMetricType: 'string'
      warmupCosineLRCycles: 'string'
      warmupCosineLRWarmupEpochs: 'string'
      weightDecay: 'string'
    }
  ]
  sweepSettings: {
    earlyTermination: {
      delayEvaluation: int
      evaluationInterval: int
      policyType: 'string'
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm: 'string'
  }
  taskType: 'ImageInstanceSegmentation'
  validationData: {
    description: 'string'
    jobInputType: 'string'
    mode: 'string'
    uri: 'string'
  }
  validationDataSize: int
}

For ImageObjectDetection, use:

{
  limitSettings: {
    maxConcurrentTrials: int
    maxTrials: int
    timeout: 'string'
  }
  modelSettings: {
    advancedSettings: 'string'
    amsGradient: bool
    augmentations: 'string'
    beta1: int
    beta2: int
    boxDetectionsPerImage: int
    boxScoreThreshold: int
    checkpointFrequency: int
    checkpointModel: {
      description: 'string'
      jobInputType: 'string'
      mode: 'string'
      uri: 'string'
    }
    checkpointRunId: 'string'
    distributed: bool
    earlyStopping: bool
    earlyStoppingDelay: int
    earlyStoppingPatience: int
    enableOnnxNormalization: bool
    evaluationFrequency: int
    gradientAccumulationStep: int
    imageSize: int
    layersToFreeze: int
    learningRate: int
    learningRateScheduler: 'string'
    maxSize: int
    minSize: int
    modelName: 'string'
    modelSize: 'string'
    momentum: int
    multiScale: bool
    nesterov: bool
    nmsIouThreshold: int
    numberOfEpochs: int
    numberOfWorkers: int
    optimizer: 'string'
    randomSeed: int
    stepLRGamma: int
    stepLRStepSize: int
    tileGridSize: 'string'
    tileOverlapRatio: int
    tilePredictionsNmsThreshold: int
    trainingBatchSize: int
    validationBatchSize: int
    validationIouThreshold: int
    validationMetricType: 'string'
    warmupCosineLRCycles: int
    warmupCosineLRWarmupEpochs: int
    weightDecay: int
  }
  primaryMetric: 'string'
  searchSpace: [
    {
      amsGradient: 'string'
      augmentations: 'string'
      beta1: 'string'
      beta2: 'string'
      boxDetectionsPerImage: 'string'
      boxScoreThreshold: 'string'
      distributed: 'string'
      earlyStopping: 'string'
      earlyStoppingDelay: 'string'
      earlyStoppingPatience: 'string'
      enableOnnxNormalization: 'string'
      evaluationFrequency: 'string'
      gradientAccumulationStep: 'string'
      imageSize: 'string'
      layersToFreeze: 'string'
      learningRate: 'string'
      learningRateScheduler: 'string'
      maxSize: 'string'
      minSize: 'string'
      modelName: 'string'
      modelSize: 'string'
      momentum: 'string'
      multiScale: 'string'
      nesterov: 'string'
      nmsIouThreshold: 'string'
      numberOfEpochs: 'string'
      numberOfWorkers: 'string'
      optimizer: 'string'
      randomSeed: 'string'
      stepLRGamma: 'string'
      stepLRStepSize: 'string'
      tileGridSize: 'string'
      tileOverlapRatio: 'string'
      tilePredictionsNmsThreshold: 'string'
      trainingBatchSize: 'string'
      validationBatchSize: 'string'
      validationIouThreshold: 'string'
      validationMetricType: 'string'
      warmupCosineLRCycles: 'string'
      warmupCosineLRWarmupEpochs: 'string'
      weightDecay: 'string'
    }
  ]
  sweepSettings: {
    earlyTermination: {
      delayEvaluation: int
      evaluationInterval: int
      policyType: 'string'
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm: 'string'
  }
  taskType: 'ImageObjectDetection'
  validationData: {
    description: 'string'
    jobInputType: 'string'
    mode: 'string'
    uri: 'string'
  }
  validationDataSize: int
}

For Regression, use:

{
  cvSplitColumnNames: [
    'string'
  ]
  featurizationSettings: {
    blockedTransformers: [
      'string'
    ]
    columnNameAndTypes: {
      {customized property}: 'string'
    }
    datasetLanguage: 'string'
    enableDnnFeaturization: bool
    mode: 'string'
    transformerParams: {
      {customized property}: [
        {
          fields: [
            'string'
          ]
          parameters: any(Azure.Bicep.Types.Concrete.AnyType)
        }
      ]
    }
  }
  fixedParameters: {
    booster: 'string'
    boostingType: 'string'
    growPolicy: 'string'
    learningRate: int
    maxBin: int
    maxDepth: int
    maxLeaves: int
    minDataInLeaf: int
    minSplitGain: int
    modelName: 'string'
    nEstimators: int
    numLeaves: int
    preprocessorName: 'string'
    regAlpha: int
    regLambda: int
    subsample: int
    subsampleFreq: int
    treeMethod: 'string'
    withMean: bool
    withStd: bool
  }
  limitSettings: {
    enableEarlyTermination: bool
    exitScore: int
    maxConcurrentTrials: int
    maxCoresPerTrial: int
    maxTrials: int
    sweepConcurrentTrials: int
    sweepTrials: int
    timeout: 'string'
    trialTimeout: 'string'
  }
  nCrossValidations: {
    mode: 'string'
    // For remaining properties, see NCrossValidations objects
  }
  primaryMetric: 'string'
  searchSpace: [
    {
      booster: 'string'
      boostingType: 'string'
      growPolicy: 'string'
      learningRate: 'string'
      maxBin: 'string'
      maxDepth: 'string'
      maxLeaves: 'string'
      minDataInLeaf: 'string'
      minSplitGain: 'string'
      modelName: 'string'
      nEstimators: 'string'
      numLeaves: 'string'
      preprocessorName: 'string'
      regAlpha: 'string'
      regLambda: 'string'
      subsample: 'string'
      subsampleFreq: 'string'
      treeMethod: 'string'
      withMean: 'string'
      withStd: 'string'
    }
  ]
  sweepSettings: {
    earlyTermination: {
      delayEvaluation: int
      evaluationInterval: int
      policyType: 'string'
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm: 'string'
  }
  taskType: 'Regression'
  testData: {
    description: 'string'
    jobInputType: 'string'
    mode: 'string'
    uri: 'string'
  }
  testDataSize: int
  trainingSettings: {
    allowedTrainingAlgorithms: [
      'string'
    ]
    blockedTrainingAlgorithms: [
      'string'
    ]
    enableDnnTraining: bool
    enableModelExplainability: bool
    enableOnnxCompatibleModels: bool
    enableStackEnsemble: bool
    enableVoteEnsemble: bool
    ensembleModelDownloadTimeout: 'string'
    stackEnsembleSettings: {
      stackMetaLearnerKWargs: any(Azure.Bicep.Types.Concrete.AnyType)
      stackMetaLearnerTrainPercentage: int
      stackMetaLearnerType: 'string'
    }
  }
  validationData: {
    description: 'string'
    jobInputType: 'string'
    mode: 'string'
    uri: 'string'
  }
  validationDataSize: int
  weightColumnName: 'string'
}

For TextClassification, use:

{
  featurizationSettings: {
    datasetLanguage: 'string'
  }
  fixedParameters: {
    gradientAccumulationSteps: int
    learningRate: int
    learningRateScheduler: 'string'
    modelName: 'string'
    numberOfEpochs: int
    trainingBatchSize: int
    validationBatchSize: int
    warmupRatio: int
    weightDecay: int
  }
  limitSettings: {
    maxConcurrentTrials: int
    maxNodes: int
    maxTrials: int
    timeout: 'string'
    trialTimeout: 'string'
  }
  primaryMetric: 'string'
  searchSpace: [
    {
      gradientAccumulationSteps: 'string'
      learningRate: 'string'
      learningRateScheduler: 'string'
      modelName: 'string'
      numberOfEpochs: 'string'
      trainingBatchSize: 'string'
      validationBatchSize: 'string'
      warmupRatio: 'string'
      weightDecay: 'string'
    }
  ]
  sweepSettings: {
    earlyTermination: {
      delayEvaluation: int
      evaluationInterval: int
      policyType: 'string'
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm: 'string'
  }
  taskType: 'TextClassification'
  validationData: {
    description: 'string'
    jobInputType: 'string'
    mode: 'string'
    uri: 'string'
  }
}

For TextClassificationMultilabel, use:

{
  featurizationSettings: {
    datasetLanguage: 'string'
  }
  fixedParameters: {
    gradientAccumulationSteps: int
    learningRate: int
    learningRateScheduler: 'string'
    modelName: 'string'
    numberOfEpochs: int
    trainingBatchSize: int
    validationBatchSize: int
    warmupRatio: int
    weightDecay: int
  }
  limitSettings: {
    maxConcurrentTrials: int
    maxNodes: int
    maxTrials: int
    timeout: 'string'
    trialTimeout: 'string'
  }
  searchSpace: [
    {
      gradientAccumulationSteps: 'string'
      learningRate: 'string'
      learningRateScheduler: 'string'
      modelName: 'string'
      numberOfEpochs: 'string'
      trainingBatchSize: 'string'
      validationBatchSize: 'string'
      warmupRatio: 'string'
      weightDecay: 'string'
    }
  ]
  sweepSettings: {
    earlyTermination: {
      delayEvaluation: int
      evaluationInterval: int
      policyType: 'string'
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm: 'string'
  }
  taskType: 'TextClassificationMultilabel'
  validationData: {
    description: 'string'
    jobInputType: 'string'
    mode: 'string'
    uri: 'string'
  }
}

For TextNER, use:

{
  featurizationSettings: {
    datasetLanguage: 'string'
  }
  fixedParameters: {
    gradientAccumulationSteps: int
    learningRate: int
    learningRateScheduler: 'string'
    modelName: 'string'
    numberOfEpochs: int
    trainingBatchSize: int
    validationBatchSize: int
    warmupRatio: int
    weightDecay: int
  }
  limitSettings: {
    maxConcurrentTrials: int
    maxNodes: int
    maxTrials: int
    timeout: 'string'
    trialTimeout: 'string'
  }
  searchSpace: [
    {
      gradientAccumulationSteps: 'string'
      learningRate: 'string'
      learningRateScheduler: 'string'
      modelName: 'string'
      numberOfEpochs: 'string'
      trainingBatchSize: 'string'
      validationBatchSize: 'string'
      warmupRatio: 'string'
      weightDecay: 'string'
    }
  ]
  sweepSettings: {
    earlyTermination: {
      delayEvaluation: int
      evaluationInterval: int
      policyType: 'string'
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm: 'string'
  }
  taskType: 'TextNER'
  validationData: {
    description: 'string'
    jobInputType: 'string'
    mode: 'string'
    uri: 'string'
  }
}

Seasonality objects

Set the mode property to specify the type of object.

For Auto, use:

{
  mode: 'Auto'
}

For Custom, use:

{
  mode: 'Custom'
  value: int
}

Property values

AllNodes

Name Description Value
nodesValueType [Required] Type of the Nodes value 'All' (required)

AmlToken

Name Description Value
identityType [Required] Specifies the type of identity framework. 'AMLToken' (required)

AutoForecastHorizon

Name Description Value
mode [Required] Set forecast horizon value selection mode. 'Auto' (required)

AutologgerSettings

Name Description Value
mlflowAutologger [Required] Indicates whether mlflow autologger is enabled. 'Disabled'
'Enabled' (required)

AutoMLJob

Name Description Value
environmentId The ARM resource ID of the Environment specification for the job.
This is optional value to provide, if not provided, AutoML will default this to Production AutoML curated environment version when running the job.
string
environmentVariables Environment variables included in the job. AutoMLJobEnvironmentVariables
jobType [Required] Specifies the type of job. 'AutoML' (required)
outputs Mapping of output data bindings used in the job. AutoMLJobOutputs
resources Compute Resource configuration for the job. JobResourceConfiguration
taskDetails [Required] This represents scenario which can be one of Tables/NLP/Image AutoMLVertical (required)

AutoMLJobEnvironmentVariables

Name Description Value

AutoMLJobOutputs

Name Description Value

AutoMLVertical

Name Description Value
logVerbosity Log verbosity for the job. 'Critical'
'Debug'
'Error'
'Info'
'NotSet'
'Warning'
targetColumnName Target column name: This is prediction values column.
Also known as label column name in context of classification tasks.
string
taskType Set to 'Classification' for type Classification. Set to 'Forecasting' for type Forecasting. Set to 'ImageClassification' for type ImageClassification. Set to 'ImageClassificationMultilabel' for type ImageClassificationMultilabel. Set to 'ImageInstanceSegmentation' for type ImageInstanceSegmentation. Set to 'ImageObjectDetection' for type ImageObjectDetection. Set to 'Regression' for type Regression. Set to 'TextClassification' for type TextClassification. Set to 'TextClassificationMultilabel' for type TextClassificationMultilabel. Set to 'TextNER' for type TextNer. 'Classification'
'Forecasting'
'ImageClassification'
'ImageClassificationMultilabel'
'ImageInstanceSegmentation'
'ImageObjectDetection'
'Regression'
'TextClassification'
'TextClassificationMultilabel'
'TextNER' (required)
trainingData [Required] Training data input. MLTableJobInput (required)

AutoNCrossValidations

Name Description Value
mode [Required] Mode for determining N-Cross validations. 'Auto' (required)

AutoSeasonality

Name Description Value
mode [Required] Seasonality mode. 'Auto' (required)

AutoTargetLags

Name Description Value
mode [Required] Set target lags mode - Auto/Custom 'Auto' (required)

AutoTargetRollingWindowSize

Name Description Value
mode [Required] TargetRollingWindowSiz detection mode. 'Auto' (required)

BanditPolicy

Name Description Value
policyType [Required] Name of policy configuration 'Bandit' (required)
slackAmount Absolute distance allowed from the best performing run. int
slackFactor Ratio of the allowed distance from the best performing run. int

BayesianSamplingAlgorithm

Name Description Value
samplingAlgorithmType [Required] The algorithm used for generating hyperparameter values, along with configuration properties 'Bayesian' (required)

Classification

Name Description Value
cvSplitColumnNames Columns to use for CVSplit data. string[]
featurizationSettings Featurization inputs needed for AutoML job. TableVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. TableFixedParameters
limitSettings Execution constraints for AutoMLJob. TableVerticalLimitSettings
nCrossValidations Number of cross validation folds to be applied on training dataset
when validation dataset is not provided.
NCrossValidations
positiveLabel Positive label for binary metrics calculation. string
primaryMetric Primary metric for the task. 'Accuracy'
'AUCWeighted'
'AveragePrecisionScoreWeighted'
'NormMacroRecall'
'PrecisionScoreWeighted'
searchSpace Search space for sampling different combinations of models and their hyperparameters. TableParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. TableSweepSettings
taskType [Required] Task type for AutoMLJob. 'Classification' (required)
testData Test data input. MLTableJobInput
testDataSize The fraction of test dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
trainingSettings Inputs for training phase for an AutoML Job. ClassificationTrainingSettings
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
weightColumnName The name of the sample weight column. Automated ML supports a weighted column as an input, causing rows in the data to be weighted up or down. string

ClassificationTrainingSettings

Name Description Value
allowedTrainingAlgorithms Allowed models for classification task. String array containing any of:
'BernoulliNaiveBayes'
'DecisionTree'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LightGBM'
'LinearSVM'
'LogisticRegression'
'MultinomialNaiveBayes'
'RandomForest'
'SGD'
'SVM'
'XGBoostClassifier'
blockedTrainingAlgorithms Blocked models for classification task. String array containing any of:
'BernoulliNaiveBayes'
'DecisionTree'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LightGBM'
'LinearSVM'
'LogisticRegression'
'MultinomialNaiveBayes'
'RandomForest'
'SGD'
'SVM'
'XGBoostClassifier'
enableDnnTraining Enable recommendation of DNN models. bool
enableModelExplainability Flag to turn on explainability on best model. bool
enableOnnxCompatibleModels Flag for enabling onnx compatible models. bool
enableStackEnsemble Enable stack ensemble run. bool
enableVoteEnsemble Enable voting ensemble run. bool
ensembleModelDownloadTimeout During VotingEnsemble and StackEnsemble model generation, multiple fitted models from the previous child runs are downloaded.
Configure this parameter with a higher value than 300 secs, if more time is needed.
string
stackEnsembleSettings Stack ensemble settings for stack ensemble run. StackEnsembleSettings

ColumnTransformer

Name Description Value
fields Fields to apply transformer logic on. string[]
parameters Different properties to be passed to transformer.
Input expected is dictionary of key,value pairs in JSON format.
any

CommandJob

Name Description Value
autologgerSettings Distribution configuration of the job. If set, this should be one of Mpi, Tensorflow, PyTorch, or null. AutologgerSettings
codeId ARM resource ID of the code asset. string
command [Required] The command to execute on startup of the job. eg. "python train.py" string

Constraints:
Min length = 1
Pattern = [a-zA-Z0-9_] (required)
distribution Distribution configuration of the job. If set, this should be one of Mpi, Tensorflow, PyTorch, or null. DistributionConfiguration
environmentId [Required] The ARM resource ID of the Environment specification for the job. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)
environmentVariables Environment variables included in the job. CommandJobEnvironmentVariables
inputs Mapping of input data bindings used in the job. CommandJobInputs
jobType [Required] Specifies the type of job. 'Command' (required)
limits Command Job limit. CommandJobLimits
outputs Mapping of output data bindings used in the job. CommandJobOutputs
resources Compute Resource configuration for the job. JobResourceConfiguration

CommandJobEnvironmentVariables

Name Description Value

CommandJobInputs

Name Description Value

CommandJobLimits

Name Description Value
jobLimitsType [Required] JobLimit type. 'Command'
'Sweep' (required)
timeout The max run duration in ISO 8601 format, after which the job will be cancelled. Only supports duration with precision as low as Seconds. string

CommandJobOutputs

Name Description Value

CronTrigger

Name Description Value
expression [Required] Specifies cron expression of schedule.
The expression should follow NCronTab format.
string

Constraints:
Pattern = [a-zA-Z0-9_] (required)
triggerType [Required] 'Cron' (required)

CustomForecastHorizon

Name Description Value
mode [Required] Set forecast horizon value selection mode. 'Custom' (required)
value [Required] Forecast horizon value. int (required)

CustomModelJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'custom_model' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

CustomModelJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'custom_model' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

CustomNCrossValidations

Name Description Value
mode [Required] Mode for determining N-Cross validations. 'Custom' (required)
value [Required] N-Cross validations value. int (required)

CustomSeasonality

Name Description Value
mode [Required] Seasonality mode. 'Custom' (required)
value [Required] Seasonality value. int (required)

CustomTargetLags

Name Description Value
mode [Required] Set target lags mode - Auto/Custom 'Custom' (required)
values [Required] Set target lags values. int[] (required)

CustomTargetRollingWindowSize

Name Description Value
mode [Required] TargetRollingWindowSiz detection mode. 'Custom' (required)
value [Required] TargetRollingWindowSize value. int (required)

DistributionConfiguration

Name Description Value
distributionType Set to 'Mpi' for type Mpi. Set to 'PyTorch' for type PyTorch. Set to 'TensorFlow' for type TensorFlow. 'Mpi'
'PyTorch'
'TensorFlow' (required)

EarlyTerminationPolicy

Name Description Value
delayEvaluation Number of intervals by which to delay the first evaluation. int
evaluationInterval Interval (number of runs) between policy evaluations. int
policyType Set to 'Bandit' for type BanditPolicy. Set to 'MedianStopping' for type MedianStoppingPolicy. Set to 'TruncationSelection' for type TruncationSelectionPolicy. 'Bandit'
'MedianStopping'
'TruncationSelection' (required)

EndpointScheduleAction

Name Description Value
actionType [Required] Specifies the action type of the schedule 'InvokeBatchEndpoint' (required)
endpointInvocationDefinition [Required] Defines Schedule action definition details.
<see href="TBD" />
any (required)

ForecastHorizon

Name Description Value
mode Set to 'Auto' for type AutoForecastHorizon. Set to 'Custom' for type CustomForecastHorizon. 'Auto'
'Custom' (required)

Forecasting

Name Description Value
cvSplitColumnNames Columns to use for CVSplit data. string[]
featurizationSettings Featurization inputs needed for AutoML job. TableVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. TableFixedParameters
forecastingSettings Forecasting task specific inputs. ForecastingSettings
limitSettings Execution constraints for AutoMLJob. TableVerticalLimitSettings
nCrossValidations Number of cross validation folds to be applied on training dataset
when validation dataset is not provided.
NCrossValidations
primaryMetric Primary metric for forecasting task. 'NormalizedMeanAbsoluteError'
'NormalizedRootMeanSquaredError'
'R2Score'
'SpearmanCorrelation'
searchSpace Search space for sampling different combinations of models and their hyperparameters. TableParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. TableSweepSettings
taskType [Required] Task type for AutoMLJob. 'Forecasting' (required)
testData Test data input. MLTableJobInput
testDataSize The fraction of test dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
trainingSettings Inputs for training phase for an AutoML Job. ForecastingTrainingSettings
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
weightColumnName The name of the sample weight column. Automated ML supports a weighted column as an input, causing rows in the data to be weighted up or down. string

ForecastingSettings

Name Description Value
countryOrRegionForHolidays Country or region for holidays for forecasting tasks.
These should be ISO 3166 two-letter country/region codes, for example 'US' or 'GB'.
string
cvStepSize Number of periods between the origin time of one CV fold and the next fold. For
example, if CVStepSize = 3 for daily data, the origin time for each fold will be
three days apart.
int
featureLags Flag for generating lags for the numeric features with 'auto' or null. 'Auto'
'None'
forecastHorizon The desired maximum forecast horizon in units of time-series frequency. ForecastHorizon
frequency When forecasting, this parameter represents the period with which the forecast is desired, for example daily, weekly, yearly, etc. The forecast frequency is dataset frequency by default. string
seasonality Set time series seasonality as an integer multiple of the series frequency.
If seasonality is set to 'auto', it will be inferred.
Seasonality
shortSeriesHandlingConfig The parameter defining how if AutoML should handle short time series. 'Auto'
'Drop'
'None'
'Pad'
targetAggregateFunction The function to be used to aggregate the time series target column to conform to a user specified frequency.
If the TargetAggregateFunction is set i.e. not 'None', but the freq parameter is not set, the error is raised. The possible target aggregation functions are: "sum", "max", "min" and "mean".
'Max'
'Mean'
'Min'
'None'
'Sum'
targetLags The number of past periods to lag from the target column. TargetLags
targetRollingWindowSize The number of past periods used to create a rolling window average of the target column. TargetRollingWindowSize
timeColumnName The name of the time column. This parameter is required when forecasting to specify the datetime column in the input data used for building the time series and inferring its frequency. string
timeSeriesIdColumnNames The names of columns used to group a timeseries. It can be used to create multiple series.
If grain is not defined, the data set is assumed to be one time-series. This parameter is used with task type forecasting.
string[]
useStl Configure STL Decomposition of the time-series target column. 'None'
'Season'
'SeasonTrend'

ForecastingTrainingSettings

Name Description Value
allowedTrainingAlgorithms Allowed models for forecasting task. String array containing any of:
'Arimax'
'AutoArima'
'Average'
'DecisionTree'
'ElasticNet'
'ExponentialSmoothing'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LassoLars'
'LightGBM'
'Naive'
'Prophet'
'RandomForest'
'SeasonalAverage'
'SeasonalNaive'
'SGD'
'TCNForecaster'
'XGBoostRegressor'
blockedTrainingAlgorithms Blocked models for forecasting task. String array containing any of:
'Arimax'
'AutoArima'
'Average'
'DecisionTree'
'ElasticNet'
'ExponentialSmoothing'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LassoLars'
'LightGBM'
'Naive'
'Prophet'
'RandomForest'
'SeasonalAverage'
'SeasonalNaive'
'SGD'
'TCNForecaster'
'XGBoostRegressor'
enableDnnTraining Enable recommendation of DNN models. bool
enableModelExplainability Flag to turn on explainability on best model. bool
enableOnnxCompatibleModels Flag for enabling onnx compatible models. bool
enableStackEnsemble Enable stack ensemble run. bool
enableVoteEnsemble Enable voting ensemble run. bool
ensembleModelDownloadTimeout During VotingEnsemble and StackEnsemble model generation, multiple fitted models from the previous child runs are downloaded.
Configure this parameter with a higher value than 300 secs, if more time is needed.
string
stackEnsembleSettings Stack ensemble settings for stack ensemble run. StackEnsembleSettings

GridSamplingAlgorithm

Name Description Value
samplingAlgorithmType [Required] The algorithm used for generating hyperparameter values, along with configuration properties 'Grid' (required)

IdentityConfiguration

Name Description Value
identityType Set to 'AMLToken' for type AmlToken. Set to 'Managed' for type ManagedIdentity. Set to 'UserIdentity' for type UserIdentity. 'AMLToken'
'Managed'
'UserIdentity' (required)

ImageClassification

Name Description Value
limitSettings [Required] Limit settings for the AutoML job. ImageLimitSettings (required)
modelSettings Settings used for training the model. ImageModelSettingsClassification
primaryMetric Primary metric to optimize for this task. 'Accuracy'
'AUCWeighted'
'AveragePrecisionScoreWeighted'
'NormMacroRecall'
'PrecisionScoreWeighted'
searchSpace Search space for sampling different combinations of models and their hyperparameters. ImageModelDistributionSettingsClassification[]
sweepSettings Model sweeping and hyperparameter sweeping related settings. ImageSweepSettings
taskType [Required] Task type for AutoMLJob. 'ImageClassification' (required)
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int

ImageClassificationMultilabel

Name Description Value
limitSettings [Required] Limit settings for the AutoML job. ImageLimitSettings (required)
modelSettings Settings used for training the model. ImageModelSettingsClassification
primaryMetric Primary metric to optimize for this task. 'Accuracy'
'AUCWeighted'
'AveragePrecisionScoreWeighted'
'IOU'
'NormMacroRecall'
'PrecisionScoreWeighted'
searchSpace Search space for sampling different combinations of models and their hyperparameters. ImageModelDistributionSettingsClassification[]
sweepSettings Model sweeping and hyperparameter sweeping related settings. ImageSweepSettings
taskType [Required] Task type for AutoMLJob. 'ImageClassificationMultilabel' (required)
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int

ImageInstanceSegmentation

Name Description Value
limitSettings [Required] Limit settings for the AutoML job. ImageLimitSettings (required)
modelSettings Settings used for training the model. ImageModelSettingsObjectDetection
primaryMetric Primary metric to optimize for this task. 'MeanAveragePrecision'
searchSpace Search space for sampling different combinations of models and their hyperparameters. ImageModelDistributionSettingsObjectDetection[]
sweepSettings Model sweeping and hyperparameter sweeping related settings. ImageSweepSettings
taskType [Required] Task type for AutoMLJob. 'ImageInstanceSegmentation' (required)
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int

ImageLimitSettings

Name Description Value
maxConcurrentTrials Maximum number of concurrent AutoML iterations. int
maxTrials Maximum number of AutoML iterations. int
timeout AutoML job timeout. string

ImageModelDistributionSettingsClassification

Name Description Value
amsGradient Enable AMSGrad when optimizer is 'adam' or 'adamw'. string
augmentations Settings for using Augmentations. string
beta1 Value of 'beta1' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. string
beta2 Value of 'beta2' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. string
distributed Whether to use distributer training. string
earlyStopping Enable early stopping logic during training. string
earlyStoppingDelay Minimum number of epochs or validation evaluations to wait before primary metric improvement
is tracked for early stopping. Must be a positive integer.
string
earlyStoppingPatience Minimum number of epochs or validation evaluations with no primary metric improvement before
the run is stopped. Must be a positive integer.
string
enableOnnxNormalization Enable normalization when exporting ONNX model. string
evaluationFrequency Frequency to evaluate validation dataset to get metric scores. Must be a positive integer. string
gradientAccumulationStep Gradient accumulation means running a configured number of "GradAccumulationStep" steps without
updating the model weights while accumulating the gradients of those steps, and then using
the accumulated gradients to compute the weight updates. Must be a positive integer.
string
layersToFreeze Number of layers to freeze for the model. Must be a positive integer.
For instance, passing 2 as value for 'seresnext' means
freezing layer0 and layer1. For a full list of models supported and details on layer freeze, please
see: /azure/machine-learning/how-to-auto-train-image-models.
string
learningRate Initial learning rate. Must be a float in the range [0, 1]. string
learningRateScheduler Type of learning rate scheduler. Must be 'warmup_cosine' or 'step'. string
modelName Name of the model to use for training.
For more information on the available models please visit the official documentation:
/azure/machine-learning/how-to-auto-train-image-models.
string
momentum Value of momentum when optimizer is 'sgd'. Must be a float in the range [0, 1]. string
nesterov Enable nesterov when optimizer is 'sgd'. string
numberOfEpochs Number of training epochs. Must be a positive integer. string
numberOfWorkers Number of data loader workers. Must be a non-negative integer. string
optimizer Type of optimizer. Must be either 'sgd', 'adam', or 'adamw'. string
randomSeed Random seed to be used when using deterministic training. string
stepLRGamma Value of gamma when learning rate scheduler is 'step'. Must be a float in the range [0, 1]. string
stepLRStepSize Value of step size when learning rate scheduler is 'step'. Must be a positive integer. string
trainingBatchSize Training batch size. Must be a positive integer. string
trainingCropSize Image crop size that is input to the neural network for the training dataset. Must be a positive integer. string
validationBatchSize Validation batch size. Must be a positive integer. string
validationCropSize Image crop size that is input to the neural network for the validation dataset. Must be a positive integer. string
validationResizeSize Image size to which to resize before cropping for validation dataset. Must be a positive integer. string
warmupCosineLRCycles Value of cosine cycle when learning rate scheduler is 'warmup_cosine'. Must be a float in the range [0, 1]. string
warmupCosineLRWarmupEpochs Value of warmup epochs when learning rate scheduler is 'warmup_cosine'. Must be a positive integer. string
weightDecay Value of weight decay when optimizer is 'sgd', 'adam', or 'adamw'. Must be a float in the range[0, 1]. string
weightedLoss Weighted loss. The accepted values are 0 for no weighted loss.
1 for weighted loss with sqrt.(class_weights). 2 for weighted loss with class_weights. Must be 0 or 1 or 2.
string

ImageModelDistributionSettingsObjectDetection

Name Description Value
amsGradient Enable AMSGrad when optimizer is 'adam' or 'adamw'. string
augmentations Settings for using Augmentations. string
beta1 Value of 'beta1' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. string
beta2 Value of 'beta2' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. string
boxDetectionsPerImage Maximum number of detections per image, for all classes. Must be a positive integer.
Note: This settings is not supported for the 'yolov5' algorithm.
string
boxScoreThreshold During inference, only return proposals with a classification score greater than
BoxScoreThreshold. Must be a float in the range[0, 1].
string
distributed Whether to use distributer training. string
earlyStopping Enable early stopping logic during training. string
earlyStoppingDelay Minimum number of epochs or validation evaluations to wait before primary metric improvement
is tracked for early stopping. Must be a positive integer.
string
earlyStoppingPatience Minimum number of epochs or validation evaluations with no primary metric improvement before
the run is stopped. Must be a positive integer.
string
enableOnnxNormalization Enable normalization when exporting ONNX model. string
evaluationFrequency Frequency to evaluate validation dataset to get metric scores. Must be a positive integer. string
gradientAccumulationStep Gradient accumulation means running a configured number of "GradAccumulationStep" steps without
updating the model weights while accumulating the gradients of those steps, and then using
the accumulated gradients to compute the weight updates. Must be a positive integer.
string
imageSize Image size for train and validation. Must be a positive integer.
Note: The training run may get into CUDA OOM if the size is too big.
Note: This settings is only supported for the 'yolov5' algorithm.
string
layersToFreeze Number of layers to freeze for the model. Must be a positive integer.
For instance, passing 2 as value for 'seresnext' means
freezing layer0 and layer1. For a full list of models supported and details on layer freeze, please
see: /azure/machine-learning/how-to-auto-train-image-models.
string
learningRate Initial learning rate. Must be a float in the range [0, 1]. string
learningRateScheduler Type of learning rate scheduler. Must be 'warmup_cosine' or 'step'. string
maxSize Maximum size of the image to be rescaled before feeding it to the backbone.
Must be a positive integer. Note: training run may get into CUDA OOM if the size is too big.
Note: This settings is not supported for the 'yolov5' algorithm.
string
minSize Minimum size of the image to be rescaled before feeding it to the backbone.
Must be a positive integer. Note: training run may get into CUDA OOM if the size is too big.
Note: This settings is not supported for the 'yolov5' algorithm.
string
modelName Name of the model to use for training.
For more information on the available models please visit the official documentation:
/azure/machine-learning/how-to-auto-train-image-models.
string
modelSize Model size. Must be 'small', 'medium', 'large', or 'xlarge'.
Note: training run may get into CUDA OOM if the model size is too big.
Note: This settings is only supported for the 'yolov5' algorithm.
string
momentum Value of momentum when optimizer is 'sgd'. Must be a float in the range [0, 1]. string
multiScale Enable multi-scale image by varying image size by +/- 50%.
Note: training run may get into CUDA OOM if no sufficient GPU memory.
Note: This settings is only supported for the 'yolov5' algorithm.
string
nesterov Enable nesterov when optimizer is 'sgd'. string
nmsIouThreshold IOU threshold used during inference in NMS post processing. Must be float in the range [0, 1]. string
numberOfEpochs Number of training epochs. Must be a positive integer. string
numberOfWorkers Number of data loader workers. Must be a non-negative integer. string
optimizer Type of optimizer. Must be either 'sgd', 'adam', or 'adamw'. string
randomSeed Random seed to be used when using deterministic training. string
stepLRGamma Value of gamma when learning rate scheduler is 'step'. Must be a float in the range [0, 1]. string
stepLRStepSize Value of step size when learning rate scheduler is 'step'. Must be a positive integer. string
tileGridSize The grid size to use for tiling each image. Note: TileGridSize must not be
None to enable small object detection logic. A string containing two integers in mxn format.
Note: This settings is not supported for the 'yolov5' algorithm.
string
tileOverlapRatio Overlap ratio between adjacent tiles in each dimension. Must be float in the range [0, 1).
Note: This settings is not supported for the 'yolov5' algorithm.
string
tilePredictionsNmsThreshold The IOU threshold to use to perform NMS while merging predictions from tiles and image.
Used in validation/ inference. Must be float in the range [0, 1].
Note: This settings is not supported for the 'yolov5' algorithm.
NMS: Non-maximum suppression
string
trainingBatchSize Training batch size. Must be a positive integer. string
validationBatchSize Validation batch size. Must be a positive integer. string
validationIouThreshold IOU threshold to use when computing validation metric. Must be float in the range [0, 1]. string
validationMetricType Metric computation method to use for validation metrics. Must be 'none', 'coco', 'voc', or 'coco_voc'. string
warmupCosineLRCycles Value of cosine cycle when learning rate scheduler is 'warmup_cosine'. Must be a float in the range [0, 1]. string
warmupCosineLRWarmupEpochs Value of warmup epochs when learning rate scheduler is 'warmup_cosine'. Must be a positive integer. string
weightDecay Value of weight decay when optimizer is 'sgd', 'adam', or 'adamw'. Must be a float in the range[0, 1]. string

ImageModelSettingsClassification

Name Description Value
advancedSettings Settings for advanced scenarios. string
amsGradient Enable AMSGrad when optimizer is 'adam' or 'adamw'. bool
augmentations Settings for using Augmentations. string
beta1 Value of 'beta1' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. int
beta2 Value of 'beta2' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. int
checkpointFrequency Frequency to store model checkpoints. Must be a positive integer. int
checkpointModel The pretrained checkpoint model for incremental training. MLFlowModelJobInput
checkpointRunId The id of a previous run that has a pretrained checkpoint for incremental training. string
distributed Whether to use distributed training. bool
earlyStopping Enable early stopping logic during training. bool
earlyStoppingDelay Minimum number of epochs or validation evaluations to wait before primary metric improvement
is tracked for early stopping. Must be a positive integer.
int
earlyStoppingPatience Minimum number of epochs or validation evaluations with no primary metric improvement before
the run is stopped. Must be a positive integer.
int
enableOnnxNormalization Enable normalization when exporting ONNX model. bool
evaluationFrequency Frequency to evaluate validation dataset to get metric scores. Must be a positive integer. int
gradientAccumulationStep Gradient accumulation means running a configured number of "GradAccumulationStep" steps without
updating the model weights while accumulating the gradients of those steps, and then using
the accumulated gradients to compute the weight updates. Must be a positive integer.
int
layersToFreeze Number of layers to freeze for the model. Must be a positive integer.
For instance, passing 2 as value for 'seresnext' means
freezing layer0 and layer1. For a full list of models supported and details on layer freeze, please
see: /azure/machine-learning/how-to-auto-train-image-models.
int
learningRate Initial learning rate. Must be a float in the range [0, 1]. int
learningRateScheduler Type of learning rate scheduler. Must be 'warmup_cosine' or 'step'. 'None'
'Step'
'WarmupCosine'
modelName Name of the model to use for training.
For more information on the available models please visit the official documentation:
/azure/machine-learning/how-to-auto-train-image-models.
string
momentum Value of momentum when optimizer is 'sgd'. Must be a float in the range [0, 1]. int
nesterov Enable nesterov when optimizer is 'sgd'. bool
numberOfEpochs Number of training epochs. Must be a positive integer. int
numberOfWorkers Number of data loader workers. Must be a non-negative integer. int
optimizer Type of optimizer. 'Adam'
'Adamw'
'None'
'Sgd'
randomSeed Random seed to be used when using deterministic training. int
stepLRGamma Value of gamma when learning rate scheduler is 'step'. Must be a float in the range [0, 1]. int
stepLRStepSize Value of step size when learning rate scheduler is 'step'. Must be a positive integer. int
trainingBatchSize Training batch size. Must be a positive integer. int
trainingCropSize Image crop size that is input to the neural network for the training dataset. Must be a positive integer. int
validationBatchSize Validation batch size. Must be a positive integer. int
validationCropSize Image crop size that is input to the neural network for the validation dataset. Must be a positive integer. int
validationResizeSize Image size to which to resize before cropping for validation dataset. Must be a positive integer. int
warmupCosineLRCycles Value of cosine cycle when learning rate scheduler is 'warmup_cosine'. Must be a float in the range [0, 1]. int
warmupCosineLRWarmupEpochs Value of warmup epochs when learning rate scheduler is 'warmup_cosine'. Must be a positive integer. int
weightDecay Value of weight decay when optimizer is 'sgd', 'adam', or 'adamw'. Must be a float in the range[0, 1]. int
weightedLoss Weighted loss. The accepted values are 0 for no weighted loss.
1 for weighted loss with sqrt.(class_weights). 2 for weighted loss with class_weights. Must be 0 or 1 or 2.
int

ImageModelSettingsObjectDetection

Name Description Value
advancedSettings Settings for advanced scenarios. string
amsGradient Enable AMSGrad when optimizer is 'adam' or 'adamw'. bool
augmentations Settings for using Augmentations. string
beta1 Value of 'beta1' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. int
beta2 Value of 'beta2' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. int
boxDetectionsPerImage Maximum number of detections per image, for all classes. Must be a positive integer.
Note: This settings is not supported for the 'yolov5' algorithm.
int
boxScoreThreshold During inference, only return proposals with a classification score greater than
BoxScoreThreshold. Must be a float in the range[0, 1].
int
checkpointFrequency Frequency to store model checkpoints. Must be a positive integer. int
checkpointModel The pretrained checkpoint model for incremental training. MLFlowModelJobInput
checkpointRunId The id of a previous run that has a pretrained checkpoint for incremental training. string
distributed Whether to use distributed training. bool
earlyStopping Enable early stopping logic during training. bool
earlyStoppingDelay Minimum number of epochs or validation evaluations to wait before primary metric improvement
is tracked for early stopping. Must be a positive integer.
int
earlyStoppingPatience Minimum number of epochs or validation evaluations with no primary metric improvement before
the run is stopped. Must be a positive integer.
int
enableOnnxNormalization Enable normalization when exporting ONNX model. bool
evaluationFrequency Frequency to evaluate validation dataset to get metric scores. Must be a positive integer. int
gradientAccumulationStep Gradient accumulation means running a configured number of "GradAccumulationStep" steps without
updating the model weights while accumulating the gradients of those steps, and then using
the accumulated gradients to compute the weight updates. Must be a positive integer.
int
imageSize Image size for train and validation. Must be a positive integer.
Note: The training run may get into CUDA OOM if the size is too big.
Note: This settings is only supported for the 'yolov5' algorithm.
int
layersToFreeze Number of layers to freeze for the model. Must be a positive integer.
For instance, passing 2 as value for 'seresnext' means
freezing layer0 and layer1. For a full list of models supported and details on layer freeze, please
see: /azure/machine-learning/how-to-auto-train-image-models.
int
learningRate Initial learning rate. Must be a float in the range [0, 1]. int
learningRateScheduler Type of learning rate scheduler. Must be 'warmup_cosine' or 'step'. 'None'
'Step'
'WarmupCosine'
maxSize Maximum size of the image to be rescaled before feeding it to the backbone.
Must be a positive integer. Note: training run may get into CUDA OOM if the size is too big.
Note: This settings is not supported for the 'yolov5' algorithm.
int
minSize Minimum size of the image to be rescaled before feeding it to the backbone.
Must be a positive integer. Note: training run may get into CUDA OOM if the size is too big.
Note: This settings is not supported for the 'yolov5' algorithm.
int
modelName Name of the model to use for training.
For more information on the available models please visit the official documentation:
/azure/machine-learning/how-to-auto-train-image-models.
string
modelSize Model size. Must be 'small', 'medium', 'large', or 'xlarge'.
Note: training run may get into CUDA OOM if the model size is too big.
Note: This settings is only supported for the 'yolov5' algorithm.
'ExtraLarge'
'Large'
'Medium'
'None'
'Small'
momentum Value of momentum when optimizer is 'sgd'. Must be a float in the range [0, 1]. int
multiScale Enable multi-scale image by varying image size by +/- 50%.
Note: training run may get into CUDA OOM if no sufficient GPU memory.
Note: This settings is only supported for the 'yolov5' algorithm.
bool
nesterov Enable nesterov when optimizer is 'sgd'. bool
nmsIouThreshold IOU threshold used during inference in NMS post processing. Must be a float in the range [0, 1]. int
numberOfEpochs Number of training epochs. Must be a positive integer. int
numberOfWorkers Number of data loader workers. Must be a non-negative integer. int
optimizer Type of optimizer. 'Adam'
'Adamw'
'None'
'Sgd'
randomSeed Random seed to be used when using deterministic training. int
stepLRGamma Value of gamma when learning rate scheduler is 'step'. Must be a float in the range [0, 1]. int
stepLRStepSize Value of step size when learning rate scheduler is 'step'. Must be a positive integer. int
tileGridSize The grid size to use for tiling each image. Note: TileGridSize must not be
None to enable small object detection logic. A string containing two integers in mxn format.
Note: This settings is not supported for the 'yolov5' algorithm.
string
tileOverlapRatio Overlap ratio between adjacent tiles in each dimension. Must be float in the range [0, 1).
Note: This settings is not supported for the 'yolov5' algorithm.
int
tilePredictionsNmsThreshold The IOU threshold to use to perform NMS while merging predictions from tiles and image.
Used in validation/ inference. Must be float in the range [0, 1].
Note: This settings is not supported for the 'yolov5' algorithm.
int
trainingBatchSize Training batch size. Must be a positive integer. int
validationBatchSize Validation batch size. Must be a positive integer. int
validationIouThreshold IOU threshold to use when computing validation metric. Must be float in the range [0, 1]. int
validationMetricType Metric computation method to use for validation metrics. 'Coco'
'CocoVoc'
'None'
'Voc'
warmupCosineLRCycles Value of cosine cycle when learning rate scheduler is 'warmup_cosine'. Must be a float in the range [0, 1]. int
warmupCosineLRWarmupEpochs Value of warmup epochs when learning rate scheduler is 'warmup_cosine'. Must be a positive integer. int
weightDecay Value of weight decay when optimizer is 'sgd', 'adam', or 'adamw'. Must be a float in the range[0, 1]. int

ImageObjectDetection

Name Description Value
limitSettings [Required] Limit settings for the AutoML job. ImageLimitSettings (required)
modelSettings Settings used for training the model. ImageModelSettingsObjectDetection
primaryMetric Primary metric to optimize for this task. 'MeanAveragePrecision'
searchSpace Search space for sampling different combinations of models and their hyperparameters. ImageModelDistributionSettingsObjectDetection[]
sweepSettings Model sweeping and hyperparameter sweeping related settings. ImageSweepSettings
taskType [Required] Task type for AutoMLJob. 'ImageObjectDetection' (required)
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int

ImageSweepSettings

Name Description Value
earlyTermination Type of early termination policy. EarlyTerminationPolicy
samplingAlgorithm [Required] Type of the hyperparameter sampling algorithms. 'Bayesian'
'Grid'
'Random' (required)

JobBaseProperties

Name Description Value
componentId ARM resource ID of the component resource. string
computeId ARM resource ID of the compute resource. string
description The asset description text. string
displayName Display name of job. string
experimentName The name of the experiment the job belongs to. If not set, the job is placed in the "Default" experiment. string
identity Identity configuration. If set, this should be one of AmlToken, ManagedIdentity, UserIdentity or null.
Defaults to AmlToken if null.
IdentityConfiguration
isArchived Is the asset archived? bool
jobType Set to 'AutoML' for type AutoMLJob. Set to 'Command' for type CommandJob. Set to 'Labeling' for type LabelingJobProperties. Set to 'Pipeline' for type PipelineJob. Set to 'Spark' for type SparkJob. Set to 'Sweep' for type SweepJob. 'AutoML'
'Command'
'Labeling'
'Pipeline'
'Spark'
'Sweep' (required)
properties The asset property dictionary. ResourceBaseProperties
services List of JobEndpoints.
For local jobs, a job endpoint will have an endpoint value of FileStreamObject.
JobBaseServices
tags Tag dictionary. Tags can be added, removed, and updated. ResourceBaseTags

JobBaseServices

Name Description Value

JobInput

Name Description Value
description Description for the input. string
jobInputType Set to 'custom_model' for type CustomModelJobInput. Set to 'literal' for type LiteralJobInput. Set to 'mlflow_model' for type MLFlowModelJobInput. Set to 'mltable' for type MLTableJobInput. Set to 'triton_model' for type TritonModelJobInput. Set to 'uri_file' for type UriFileJobInput. Set to 'uri_folder' for type UriFolderJobInput. 'custom_model'
'literal'
'mlflow_model'
'mltable'
'triton_model'
'uri_file'
'uri_folder' (required)

JobOutput

Name Description Value
description Description for the output. string
jobOutputType Set to 'custom_model' for type CustomModelJobOutput. Set to 'mlflow_model' for type MLFlowModelJobOutput. Set to 'mltable' for type MLTableJobOutput. Set to 'triton_model' for type TritonModelJobOutput. Set to 'uri_file' for type UriFileJobOutput. Set to 'uri_folder' for type UriFolderJobOutput. 'custom_model'
'mlflow_model'
'mltable'
'triton_model'
'uri_file'
'uri_folder' (required)

JobResourceConfiguration

Name Description Value
dockerArgs Extra arguments to pass to the Docker run command. This would override any parameters that have already been set by the system, or in this section. This parameter is only supported for Azure ML compute types. string
instanceCount Optional number of instances or nodes used by the compute target. int
instanceType Optional type of VM used as supported by the compute target. string
properties Additional properties bag. ResourceConfigurationProperties
shmSize Size of the docker container's shared memory block. This should be in the format of (number)(unit) where number as to be greater than 0 and the unit can be one of b(bytes), k(kilobytes), m(megabytes), or g(gigabytes). string

Constraints:
Pattern = \d+[bBkKmMgG]

JobScheduleAction

Name Description Value
actionType [Required] Specifies the action type of the schedule 'CreateJob' (required)
jobDefinition [Required] Defines Schedule action definition details. JobBaseProperties (required)

JobService

Name Description Value
endpoint Url for endpoint. string
jobServiceType Endpoint type. string
nodes Nodes that user would like to start the service on.
If Nodes is not set or set to null, the service will only be started on leader node.
Nodes
port Port for endpoint set by user. int
properties Additional properties to set on the endpoint. JobServiceProperties

JobServiceProperties

Name Description Value

LabelCategory

Name Description Value
classes Dictionary of label classes in this category. LabelCategoryClasses
displayName Display name of the label category. string
multiSelectEnabled Indicates whether it is allowed to select multiple classes in this category. bool

LabelCategoryClasses

Name Description Value

LabelClass

Name Description Value
displayName Display name of the label class. string
subclasses Dictionary of subclasses of the label class. LabelClassSubclasses

LabelClassSubclasses

Name Description Value

LabelingDataConfiguration

Name Description Value
dataId Resource Id of the data asset to perform labeling. string
incrementalDataRefreshEnabled Indicates whether to enable incremental data refresh. bool

LabelingJobImageProperties

Name Description Value
annotationType Annotation type of image labeling job. 'BoundingBox'
'Classification'
'InstanceSegmentation'
mediaType [Required] Media type of the job. 'Image' (required)

LabelingJobInstructions

Name Description Value
uri The link to a page with detailed labeling instructions for labelers. string

LabelingJobLabelCategories

Name Description Value

LabelingJobMediaProperties

Name Description Value
mediaType Set to 'Image' for type LabelingJobImageProperties. Set to 'Text' for type LabelingJobTextProperties. 'Image'
'Text' (required)

LabelingJobProperties

Name Description Value
dataConfiguration Configuration of data used in the job. LabelingDataConfiguration
jobInstructions Labeling instructions of the job. LabelingJobInstructions
jobType [Required] Specifies the type of job. 'Labeling' (required)
labelCategories Label categories of the job. LabelingJobLabelCategories
labelingJobMediaProperties Media type specific properties in the job. LabelingJobMediaProperties
mlAssistConfiguration Configuration of MLAssist feature in the job. MLAssistConfiguration

LabelingJobTextProperties

Name Description Value
annotationType Annotation type of text labeling job. 'Classification'
'NamedEntityRecognition'
mediaType [Required] Media type of the job. 'Text' (required)

LiteralJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'literal' (required)
value [Required] Literal value for the input. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

ManagedIdentity

Name Description Value
clientId Specifies a user-assigned identity by client ID. For system-assigned, do not set this field. string

Constraints:
Min length = 36
Max length = 36
Pattern = ^[0-9a-fA-F]{8}-([0-9a-fA-F]{4}-){3}[0-9a-fA-F]{12}$
identityType [Required] Specifies the type of identity framework. 'Managed' (required)
objectId Specifies a user-assigned identity by object ID. For system-assigned, do not set this field. string

Constraints:
Min length = 36
Max length = 36
Pattern = ^[0-9a-fA-F]{8}-([0-9a-fA-F]{4}-){3}[0-9a-fA-F]{12}$
resourceId Specifies a user-assigned identity by ARM resource ID. For system-assigned, do not set this field. string

MedianStoppingPolicy

Name Description Value
policyType [Required] Name of policy configuration 'MedianStopping' (required)

Microsoft.MachineLearningServices/workspaces/schedules

Name Description Value
name The resource name string

Constraints:
Pattern = ^[a-zA-Z0-9][a-zA-Z0-9\-_]{0,254}$ (required)
parent In Bicep, you can specify the parent resource for a child resource. You only need to add this property when the child resource is declared outside of the parent resource.

For more information, see Child resource outside parent resource.
Symbolic name for resource of type: workspaces
properties [Required] Additional attributes of the entity. ScheduleProperties (required)

MLAssistConfiguration

Name Description Value
mlAssist Set to 'Disabled' for type MLAssistConfigurationDisabled. Set to 'Enabled' for type MLAssistConfigurationEnabled. 'Disabled'
'Enabled' (required)

MLAssistConfigurationDisabled

Name Description Value
mlAssist [Required] Indicates whether MLAssist feature is enabled. 'Disabled' (required)

MLAssistConfigurationEnabled

Name Description Value
inferencingComputeBinding [Required] AML compute binding used in inferencing. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)
mlAssist [Required] Indicates whether MLAssist feature is enabled. 'Enabled' (required)
trainingComputeBinding [Required] AML compute binding used in training. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

MLFlowModelJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'mlflow_model' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

MLFlowModelJobInput

Name Description Value
description Description for the input. string
jobInputType [Required] Specifies the type of job. 'custom_model'
'literal'
'mlflow_model'
'mltable'
'triton_model'
'uri_file'
'uri_folder' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

MLFlowModelJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'mlflow_model' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

MLTableJobInput

Name Description Value
description Description for the input. string
jobInputType [Required] Specifies the type of job. 'custom_model'
'literal'
'mlflow_model'
'mltable'
'triton_model'
'uri_file'
'uri_folder' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

MLTableJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'mltable' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

MLTableJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'mltable' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

Mpi

Name Description Value
distributionType [Required] Specifies the type of distribution framework. 'Mpi' (required)
processCountPerInstance Number of processes per MPI node. int

NCrossValidations

Name Description Value
mode Set to 'Auto' for type AutoNCrossValidations. Set to 'Custom' for type CustomNCrossValidations. 'Auto'
'Custom' (required)

NlpFixedParameters

Name Description Value
gradientAccumulationSteps Number of steps to accumulate gradients over before running a backward pass. int
learningRate The learning rate for the training procedure. int
learningRateScheduler The type of learning rate schedule to use during the training procedure. 'Constant'
'ConstantWithWarmup'
'Cosine'
'CosineWithRestarts'
'Linear'
'None'
'Polynomial'
modelName The name of the model to train. string
numberOfEpochs Number of training epochs. int
trainingBatchSize The batch size for the training procedure. int
validationBatchSize The batch size to be used during evaluation. int
warmupRatio The warmup ratio, used alongside LrSchedulerType. int
weightDecay The weight decay for the training procedure. int

NlpParameterSubspace

Name Description Value
gradientAccumulationSteps Number of steps to accumulate gradients over before running a backward pass. string
learningRate The learning rate for the training procedure. string
learningRateScheduler The type of learning rate schedule to use during the training procedure. string
modelName The name of the model to train. string
numberOfEpochs Number of training epochs. string
trainingBatchSize The batch size for the training procedure. string
validationBatchSize The batch size to be used during evaluation. string
warmupRatio The warmup ratio, used alongside LrSchedulerType. string
weightDecay The weight decay for the training procedure. string

NlpSweepSettings

Name Description Value
earlyTermination Type of early termination policy for the sweeping job. EarlyTerminationPolicy
samplingAlgorithm [Required] Type of sampling algorithm. 'Bayesian'
'Grid'
'Random' (required)

NlpVerticalFeaturizationSettings

Name Description Value
datasetLanguage Dataset language, useful for the text data. string

NlpVerticalLimitSettings

Name Description Value
maxConcurrentTrials Maximum Concurrent AutoML iterations. int
maxNodes Maximum nodes to leverage for training in any single trial. Controls multi-node distributed training. int
maxTrials Number of AutoML iterations. int
timeout AutoML job timeout. string
trialTimeout Timeout for individual HD trials. string

Nodes

Name Description Value
nodesValueType Set to 'All' for type AllNodes. 'All' (required)

Objective

Name Description Value
goal [Required] Defines supported metric goals for hyperparameter tuning 'Maximize'
'Minimize' (required)
primaryMetric [Required] Name of the metric to optimize. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

PipelineJob

Name Description Value
inputs Inputs for the pipeline job. PipelineJobInputs
jobs Jobs construct the Pipeline Job. PipelineJobJobs
jobType [Required] Specifies the type of job. 'Pipeline' (required)
outputs Outputs for the pipeline job PipelineJobOutputs
settings Pipeline settings, for things like ContinueRunOnStepFailure etc. any
sourceJobId ARM resource ID of source job. string

PipelineJobInputs

Name Description Value

PipelineJobJobs

Name Description Value

PipelineJobOutputs

Name Description Value

PyTorch

Name Description Value
distributionType [Required] Specifies the type of distribution framework. 'PyTorch' (required)
processCountPerInstance Number of processes per node. int

RandomSamplingAlgorithm

Name Description Value
rule The specific type of random algorithm 'Random'
'Sobol'
samplingAlgorithmType [Required] The algorithm used for generating hyperparameter values, along with configuration properties 'Random' (required)
seed An optional integer to use as the seed for random number generation int

RecurrenceSchedule

Name Description Value
hours [Required] List of hours for the schedule. int[] (required)
minutes [Required] List of minutes for the schedule. int[] (required)
monthDays List of month days for the schedule int[]
weekDays List of days for the schedule. String array containing any of:
'Friday'
'Monday'
'Saturday'
'Sunday'
'Thursday'
'Tuesday'
'Wednesday'

RecurrenceTrigger

Name Description Value
frequency [Required] The frequency to trigger schedule. 'Day'
'Hour'
'Minute'
'Month'
'Week' (required)
interval [Required] Specifies schedule interval in conjunction with frequency int (required)
schedule The recurrence schedule. RecurrenceSchedule
triggerType [Required] 'Recurrence' (required)

Regression

Name Description Value
cvSplitColumnNames Columns to use for CVSplit data. string[]
featurizationSettings Featurization inputs needed for AutoML job. TableVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. TableFixedParameters
limitSettings Execution constraints for AutoMLJob. TableVerticalLimitSettings
nCrossValidations Number of cross validation folds to be applied on training dataset
when validation dataset is not provided.
NCrossValidations
primaryMetric Primary metric for regression task. 'NormalizedMeanAbsoluteError'
'NormalizedRootMeanSquaredError'
'R2Score'
'SpearmanCorrelation'
searchSpace Search space for sampling different combinations of models and their hyperparameters. TableParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. TableSweepSettings
taskType [Required] Task type for AutoMLJob. 'Regression' (required)
testData Test data input. MLTableJobInput
testDataSize The fraction of test dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
trainingSettings Inputs for training phase for an AutoML Job. RegressionTrainingSettings
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
weightColumnName The name of the sample weight column. Automated ML supports a weighted column as an input, causing rows in the data to be weighted up or down. string

RegressionTrainingSettings

Name Description Value
allowedTrainingAlgorithms Allowed models for regression task. String array containing any of:
'DecisionTree'
'ElasticNet'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LassoLars'
'LightGBM'
'RandomForest'
'SGD'
'XGBoostRegressor'
blockedTrainingAlgorithms Blocked models for regression task. String array containing any of:
'DecisionTree'
'ElasticNet'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LassoLars'
'LightGBM'
'RandomForest'
'SGD'
'XGBoostRegressor'
enableDnnTraining Enable recommendation of DNN models. bool
enableModelExplainability Flag to turn on explainability on best model. bool
enableOnnxCompatibleModels Flag for enabling onnx compatible models. bool
enableStackEnsemble Enable stack ensemble run. bool
enableVoteEnsemble Enable voting ensemble run. bool
ensembleModelDownloadTimeout During VotingEnsemble and StackEnsemble model generation, multiple fitted models from the previous child runs are downloaded.
Configure this parameter with a higher value than 300 secs, if more time is needed.
string
stackEnsembleSettings Stack ensemble settings for stack ensemble run. StackEnsembleSettings

ResourceBaseProperties

Name Description Value

ResourceBaseProperties

Name Description Value

ResourceBaseTags

Name Description Value

ResourceBaseTags

Name Description Value

ResourceConfigurationProperties

Name Description Value

SamplingAlgorithm

Name Description Value
samplingAlgorithmType Set to 'Bayesian' for type BayesianSamplingAlgorithm. Set to 'Grid' for type GridSamplingAlgorithm. Set to 'Random' for type RandomSamplingAlgorithm. 'Bayesian'
'Grid'
'Random' (required)

ScheduleActionBase

Name Description Value
actionType Set to 'CreateJob' for type JobScheduleAction. Set to 'InvokeBatchEndpoint' for type EndpointScheduleAction. 'CreateJob'
'InvokeBatchEndpoint' (required)

ScheduleProperties

Name Description Value
action [Required] Specifies the action of the schedule ScheduleActionBase (required)
description The asset description text. string
displayName Display name of schedule. string
isEnabled Is the schedule enabled? bool
properties The asset property dictionary. ResourceBaseProperties
tags Tag dictionary. Tags can be added, removed, and updated. ResourceBaseTags
trigger [Required] Specifies the trigger details TriggerBase (required)

Seasonality

Name Description Value
mode Set to 'Auto' for type AutoSeasonality. Set to 'Custom' for type CustomSeasonality. 'Auto'
'Custom' (required)

SparkJob

Name Description Value
archives Archive files used in the job. string[]
args Arguments for the job. string
codeId [Required] ARM resource ID of the code asset. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)
conf Spark configured properties. SparkJobConf
entry [Required] The entry to execute on startup of the job. SparkJobEntry (required)
environmentId The ARM resource ID of the Environment specification for the job. string
files Files used in the job. string[]
inputs Mapping of input data bindings used in the job. SparkJobInputs
jars Jar files used in the job. string[]
jobType [Required] Specifies the type of job. 'Spark' (required)
outputs Mapping of output data bindings used in the job. SparkJobOutputs
pyFiles Python files used in the job. string[]
resources Compute Resource configuration for the job. SparkResourceConfiguration

SparkJobConf

Name Description Value

SparkJobEntry

Name Description Value
sparkJobEntryType Set to 'SparkJobPythonEntry' for type SparkJobPythonEntry. Set to 'SparkJobScalaEntry' for type SparkJobScalaEntry. 'SparkJobPythonEntry'
'SparkJobScalaEntry' (required)

SparkJobInputs

Name Description Value

SparkJobOutputs

Name Description Value

SparkJobPythonEntry

Name Description Value
file [Required] Relative python file path for job entry point. string

Constraints:
Min length = 1
Pattern = [a-zA-Z0-9_] (required)
sparkJobEntryType [Required] Type of the job's entry point. 'SparkJobPythonEntry' (required)

SparkJobScalaEntry

Name Description Value
className [Required] Scala class name used as entry point. string

Constraints:
Min length = 1
Pattern = [a-zA-Z0-9_] (required)
sparkJobEntryType [Required] Type of the job's entry point. 'SparkJobScalaEntry' (required)

SparkResourceConfiguration

Name Description Value
instanceType Optional type of VM used as supported by the compute target. string
runtimeVersion Version of spark runtime used for the job. string

StackEnsembleSettings

Name Description Value
stackMetaLearnerKWargs Optional parameters to pass to the initializer of the meta-learner. any
stackMetaLearnerTrainPercentage Specifies the proportion of the training set (when choosing train and validation type of training) to be reserved for training the meta-learner. Default value is 0.2. int
stackMetaLearnerType The meta-learner is a model trained on the output of the individual heterogeneous models. 'ElasticNet'
'ElasticNetCV'
'LightGBMClassifier'
'LightGBMRegressor'
'LinearRegression'
'LogisticRegression'
'LogisticRegressionCV'
'None'

SweepJob

Name Description Value
earlyTermination Early termination policies enable canceling poor-performing runs before they complete EarlyTerminationPolicy
inputs Mapping of input data bindings used in the job. SweepJobInputs
jobType [Required] Specifies the type of job. 'Sweep' (required)
limits Sweep Job limit. SweepJobLimits
objective [Required] Optimization objective. Objective (required)
outputs Mapping of output data bindings used in the job. SweepJobOutputs
samplingAlgorithm [Required] The hyperparameter sampling algorithm SamplingAlgorithm (required)
searchSpace [Required] A dictionary containing each parameter and its distribution. The dictionary key is the name of the parameter any (required)
trial [Required] Trial component definition. TrialComponent (required)

SweepJobInputs

Name Description Value

SweepJobLimits

Name Description Value
jobLimitsType [Required] JobLimit type. 'Command'
'Sweep' (required)
maxConcurrentTrials Sweep Job max concurrent trials. int
maxTotalTrials Sweep Job max total trials. int
timeout The max run duration in ISO 8601 format, after which the job will be cancelled. Only supports duration with precision as low as Seconds. string
trialTimeout Sweep Job Trial timeout value. string

SweepJobOutputs

Name Description Value

TableFixedParameters

Name Description Value
booster Specify the boosting type, e.g gbdt for XGBoost. string
boostingType Specify the boosting type, e.g gbdt for LightGBM. string
growPolicy Specify the grow policy, which controls the way new nodes are added to the tree. string
learningRate The learning rate for the training procedure. int
maxBin Specify the Maximum number of discrete bins to bucket continuous features . int
maxDepth Specify the max depth to limit the tree depth explicitly. int
maxLeaves Specify the max leaves to limit the tree leaves explicitly. int
minDataInLeaf The minimum number of data per leaf. int
minSplitGain Minimum loss reduction required to make a further partition on a leaf node of the tree. int
modelName The name of the model to train. string
nEstimators Specify the number of trees (or rounds) in an model. int
numLeaves Specify the number of leaves. int
preprocessorName The name of the preprocessor to use. string
regAlpha L1 regularization term on weights. int
regLambda L2 regularization term on weights. int
subsample Subsample ratio of the training instance. int
subsampleFreq Frequency of subsample. int
treeMethod Specify the tree method. string
withMean If true, center before scaling the data with StandardScalar. bool
withStd If true, scaling the data with Unit Variance with StandardScalar. bool

TableParameterSubspace

Name Description Value
booster Specify the boosting type, e.g gbdt for XGBoost. string
boostingType Specify the boosting type, e.g gbdt for LightGBM. string
growPolicy Specify the grow policy, which controls the way new nodes are added to the tree. string
learningRate The learning rate for the training procedure. string
maxBin Specify the Maximum number of discrete bins to bucket continuous features . string
maxDepth Specify the max depth to limit the tree depth explicitly. string
maxLeaves Specify the max leaves to limit the tree leaves explicitly. string
minDataInLeaf The minimum number of data per leaf. string
minSplitGain Minimum loss reduction required to make a further partition on a leaf node of the tree. string
modelName The name of the model to train. string
nEstimators Specify the number of trees (or rounds) in an model. string
numLeaves Specify the number of leaves. string
preprocessorName The name of the preprocessor to use. string
regAlpha L1 regularization term on weights. string
regLambda L2 regularization term on weights. string
subsample Subsample ratio of the training instance. string
subsampleFreq Frequency of subsample string
treeMethod Specify the tree method. string
withMean If true, center before scaling the data with StandardScalar. string
withStd If true, scaling the data with Unit Variance with StandardScalar. string

TableSweepSettings

Name Description Value
earlyTermination Type of early termination policy for the sweeping job. EarlyTerminationPolicy
samplingAlgorithm [Required] Type of sampling algorithm. 'Bayesian'
'Grid'
'Random' (required)

TableVerticalFeaturizationSettings

Name Description Value
blockedTransformers These transformers shall not be used in featurization. String array containing any of:
'CatTargetEncoder'
'CountVectorizer'
'HashOneHotEncoder'
'LabelEncoder'
'NaiveBayes'
'OneHotEncoder'
'TextTargetEncoder'
'TfIdf'
'WoETargetEncoder'
'WordEmbedding'
columnNameAndTypes Dictionary of column name and its type (int, float, string, datetime etc). TableVerticalFeaturizationSettingsColumnNameAndTypes
datasetLanguage Dataset language, useful for the text data. string
enableDnnFeaturization Determines whether to use Dnn based featurizers for data featurization. bool
mode Featurization mode - User can keep the default 'Auto' mode and AutoML will take care of necessary transformation of the data in featurization phase.
If 'Off' is selected then no featurization is done.
If 'Custom' is selected then user can specify additional inputs to customize how featurization is done.
'Auto'
'Custom'
'Off'
transformerParams User can specify additional transformers to be used along with the columns to which it would be applied and parameters for the transformer constructor. TableVerticalFeaturizationSettingsTransformerParams

TableVerticalFeaturizationSettingsColumnNameAndTypes

Name Description Value

TableVerticalFeaturizationSettingsTransformerParams

Name Description Value

TableVerticalLimitSettings

Name Description Value
enableEarlyTermination Enable early termination, determines whether or not if AutoMLJob will terminate early if there is no score improvement in last 20 iterations. bool
exitScore Exit score for the AutoML job. int
maxConcurrentTrials Maximum Concurrent iterations. int
maxCoresPerTrial Max cores per iteration. int
maxTrials Number of iterations. int
sweepConcurrentTrials Number of concurrent sweeping runs that user wants to trigger. int
sweepTrials Number of sweeping runs that user wants to trigger. int
timeout AutoML job timeout. string
trialTimeout Iteration timeout. string

TargetLags

Name Description Value
mode Set to 'Auto' for type AutoTargetLags. Set to 'Custom' for type CustomTargetLags. 'Auto'
'Custom' (required)

TargetRollingWindowSize

Name Description Value
mode Set to 'Auto' for type AutoTargetRollingWindowSize. Set to 'Custom' for type CustomTargetRollingWindowSize. 'Auto'
'Custom' (required)

TensorFlow

Name Description Value
distributionType [Required] Specifies the type of distribution framework. 'TensorFlow' (required)
parameterServerCount Number of parameter server tasks. int
workerCount Number of workers. If not specified, will default to the instance count. int

TextClassification

Name Description Value
featurizationSettings Featurization inputs needed for AutoML job. NlpVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. NlpFixedParameters
limitSettings Execution constraints for AutoMLJob. NlpVerticalLimitSettings
primaryMetric Primary metric for Text-Classification task. 'Accuracy'
'AUCWeighted'
'AveragePrecisionScoreWeighted'
'NormMacroRecall'
'PrecisionScoreWeighted'
searchSpace Search space for sampling different combinations of models and their hyperparameters. NlpParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. NlpSweepSettings
taskType [Required] Task type for AutoMLJob. 'TextClassification' (required)
validationData Validation data inputs. MLTableJobInput

TextClassificationMultilabel

Name Description Value
featurizationSettings Featurization inputs needed for AutoML job. NlpVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. NlpFixedParameters
limitSettings Execution constraints for AutoMLJob. NlpVerticalLimitSettings
searchSpace Search space for sampling different combinations of models and their hyperparameters. NlpParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. NlpSweepSettings
taskType [Required] Task type for AutoMLJob. 'TextClassificationMultilabel' (required)
validationData Validation data inputs. MLTableJobInput

TextNer

Name Description Value
featurizationSettings Featurization inputs needed for AutoML job. NlpVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. NlpFixedParameters
limitSettings Execution constraints for AutoMLJob. NlpVerticalLimitSettings
searchSpace Search space for sampling different combinations of models and their hyperparameters. NlpParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. NlpSweepSettings
taskType [Required] Task type for AutoMLJob. 'TextNER' (required)
validationData Validation data inputs. MLTableJobInput

TrialComponent

Name Description Value
codeId ARM resource ID of the code asset. string
command [Required] The command to execute on startup of the job. eg. "python train.py" string

Constraints:
Min length = 1
Pattern = [a-zA-Z0-9_] (required)
distribution Distribution configuration of the job. If set, this should be one of Mpi, Tensorflow, PyTorch, or null. DistributionConfiguration
environmentId [Required] The ARM resource ID of the Environment specification for the job. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)
environmentVariables Environment variables included in the job. TrialComponentEnvironmentVariables
resources Compute Resource configuration for the job. JobResourceConfiguration

TrialComponentEnvironmentVariables

Name Description Value

TriggerBase

Name Description Value
endTime Specifies end time of schedule in ISO 8601, but without a UTC offset. Refer https://en.wikipedia.org/wiki/ISO_8601.
Recommented format would be "2022-06-01T00:00:01"
If not present, the schedule will run indefinitely
string
startTime Specifies start time of schedule in ISO 8601 format, but without a UTC offset. string
timeZone Specifies time zone in which the schedule runs.
TimeZone should follow Windows time zone format. Refer: /windows-hardware/manufacture/desktop/default-time-zones?view=windows-11
string
triggerType Set to 'Cron' for type CronTrigger. Set to 'Recurrence' for type RecurrenceTrigger. 'Cron'
'Recurrence' (required)

TritonModelJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'triton_model' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

TritonModelJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'triton_model' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

TruncationSelectionPolicy

Name Description Value
policyType [Required] Name of policy configuration 'TruncationSelection' (required)
truncationPercentage The percentage of runs to cancel at each evaluation interval. int

UriFileJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'uri_file' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

UriFileJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'uri_file' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

UriFolderJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'uri_folder' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

UriFolderJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'uri_folder' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

UserIdentity

Name Description Value
identityType [Required] Specifies the type of identity framework. 'UserIdentity' (required)

ARM template resource definition

The workspaces/schedules resource type can be deployed with operations that target:

For a list of changed properties in each API version, see change log.

Resource format

To create a Microsoft.MachineLearningServices/workspaces/schedules resource, add the following JSON to your template.

{
  "type": "Microsoft.MachineLearningServices/workspaces/schedules",
  "apiVersion": "2022-10-01-preview",
  "name": "string",
  "properties": {
    "action": {
      "actionType": "string"
      // For remaining properties, see ScheduleActionBase objects
    },
    "description": "string",
    "displayName": "string",
    "isEnabled": "bool",
    "properties": {
      "{customized property}": "string"
    },
    "tags": {
      "{customized property}": "string"
    },
    "trigger": {
      "endTime": "string",
      "startTime": "string",
      "timeZone": "string",
      "triggerType": "string"
      // For remaining properties, see TriggerBase objects
    }
  }
}

Nodes objects

Set the nodesValueType property to specify the type of object.

For All, use:

{
  "nodesValueType": "All"
}

DistributionConfiguration objects

Set the distributionType property to specify the type of object.

For Mpi, use:

{
  "distributionType": "Mpi",
  "processCountPerInstance": "int"
}

For PyTorch, use:

{
  "distributionType": "PyTorch",
  "processCountPerInstance": "int"
}

For TensorFlow, use:

{
  "distributionType": "TensorFlow",
  "parameterServerCount": "int",
  "workerCount": "int"
}

JobBaseProperties objects

Set the jobType property to specify the type of object.

For AutoML, use:

{
  "environmentId": "string",
  "environmentVariables": {
    "{customized property}": "string"
  },
  "jobType": "AutoML",
  "outputs": {
    "{customized property}": {
      "description": "string",
      "jobOutputType": "string"
      // For remaining properties, see JobOutput objects
    }
  },
  "resources": {
    "dockerArgs": "string",
    "instanceCount": "int",
    "instanceType": "string",
    "properties": {
      "{customized property}": {}
    },
    "shmSize": "string"
  },
  "taskDetails": {
    "logVerbosity": "string",
    "targetColumnName": "string",
    "trainingData": {
      "description": "string",
      "jobInputType": "string",
      "mode": "string",
      "uri": "string"
    },
    "taskType": "string"
    // For remaining properties, see AutoMLVertical objects
  }
}

For Command, use:

{
  "autologgerSettings": {
    "mlflowAutologger": "string"
  },
  "codeId": "string",
  "command": "string",
  "distribution": {
    "distributionType": "string"
    // For remaining properties, see DistributionConfiguration objects
  },
  "environmentId": "string",
  "environmentVariables": {
    "{customized property}": "string"
  },
  "inputs": {
    "{customized property}": {
      "description": "string",
      "jobInputType": "string"
      // For remaining properties, see JobInput objects
    }
  },
  "jobType": "Command",
  "limits": {
    "jobLimitsType": "string",
    "timeout": "string"
  },
  "outputs": {
    "{customized property}": {
      "description": "string",
      "jobOutputType": "string"
      // For remaining properties, see JobOutput objects
    }
  },
  "resources": {
    "dockerArgs": "string",
    "instanceCount": "int",
    "instanceType": "string",
    "properties": {
      "{customized property}": {}
    },
    "shmSize": "string"
  }
}

For Labeling, use:

{
  "dataConfiguration": {
    "dataId": "string",
    "incrementalDataRefreshEnabled": "bool"
  },
  "jobInstructions": {
    "uri": "string"
  },
  "jobType": "Labeling",
  "labelCategories": {
    "{customized property}": {
      "classes": {
        "{customized property}": {
          "displayName": "string",
          "subclasses": {
            "{customized property}": ...
          }
        }
      },
      "displayName": "string",
      "multiSelectEnabled": "bool"
    }
  },
  "labelingJobMediaProperties": {
    "mediaType": "string"
    // For remaining properties, see LabelingJobMediaProperties objects
  },
  "mlAssistConfiguration": {
    "mlAssist": "string"
    // For remaining properties, see MLAssistConfiguration objects
  }
}

For Pipeline, use:

{
  "inputs": {
    "{customized property}": {
      "description": "string",
      "jobInputType": "string"
      // For remaining properties, see JobInput objects
    }
  },
  "jobs": {
    "{customized property}": {}
  },
  "jobType": "Pipeline",
  "outputs": {
    "{customized property}": {
      "description": "string",
      "jobOutputType": "string"
      // For remaining properties, see JobOutput objects
    }
  },
  "settings": {},
  "sourceJobId": "string"
}

For Spark, use:

{
  "archives": [ "string" ],
  "args": "string",
  "codeId": "string",
  "conf": {
    "{customized property}": "string"
  },
  "entry": {
    "sparkJobEntryType": "string"
    // For remaining properties, see SparkJobEntry objects
  },
  "environmentId": "string",
  "files": [ "string" ],
  "inputs": {
    "{customized property}": {
      "description": "string",
      "jobInputType": "string"
      // For remaining properties, see JobInput objects
    }
  },
  "jars": [ "string" ],
  "jobType": "Spark",
  "outputs": {
    "{customized property}": {
      "description": "string",
      "jobOutputType": "string"
      // For remaining properties, see JobOutput objects
    }
  },
  "pyFiles": [ "string" ],
  "resources": {
    "instanceType": "string",
    "runtimeVersion": "string"
  }
}

For Sweep, use:

{
  "earlyTermination": {
    "delayEvaluation": "int",
    "evaluationInterval": "int",
    "policyType": "string"
    // For remaining properties, see EarlyTerminationPolicy objects
  },
  "inputs": {
    "{customized property}": {
      "description": "string",
      "jobInputType": "string"
      // For remaining properties, see JobInput objects
    }
  },
  "jobType": "Sweep",
  "limits": {
    "jobLimitsType": "string",
    "maxConcurrentTrials": "int",
    "maxTotalTrials": "int",
    "timeout": "string",
    "trialTimeout": "string"
  },
  "objective": {
    "goal": "string",
    "primaryMetric": "string"
  },
  "outputs": {
    "{customized property}": {
      "description": "string",
      "jobOutputType": "string"
      // For remaining properties, see JobOutput objects
    }
  },
  "samplingAlgorithm": {
    "samplingAlgorithmType": "string"
    // For remaining properties, see SamplingAlgorithm objects
  },
  "searchSpace": {},
  "trial": {
    "codeId": "string",
    "command": "string",
    "distribution": {
      "distributionType": "string"
      // For remaining properties, see DistributionConfiguration objects
    },
    "environmentId": "string",
    "environmentVariables": {
      "{customized property}": "string"
    },
    "resources": {
      "dockerArgs": "string",
      "instanceCount": "int",
      "instanceType": "string",
      "properties": {
        "{customized property}": {}
      },
      "shmSize": "string"
    }
  }
}

ScheduleActionBase objects

Set the actionType property to specify the type of object.

For CreateJob, use:

{
  "actionType": "CreateJob",
  "jobDefinition": {
    "componentId": "string",
    "computeId": "string",
    "description": "string",
    "displayName": "string",
    "experimentName": "string",
    "identity": {
      "identityType": "string"
      // For remaining properties, see IdentityConfiguration objects
    },
    "isArchived": "bool",
    "properties": {
      "{customized property}": "string"
    },
    "services": {
      "{customized property}": {
        "endpoint": "string",
        "jobServiceType": "string",
        "nodes": {
          "nodesValueType": "string"
          // For remaining properties, see Nodes objects
        },
        "port": "int",
        "properties": {
          "{customized property}": "string"
        }
      }
    },
    "tags": {
      "{customized property}": "string"
    },
    "jobType": "string"
    // For remaining properties, see JobBaseProperties objects
  }
}

For InvokeBatchEndpoint, use:

{
  "actionType": "InvokeBatchEndpoint",
  "endpointInvocationDefinition": {}
}

SparkJobEntry objects

Set the sparkJobEntryType property to specify the type of object.

For SparkJobPythonEntry, use:

{
  "file": "string",
  "sparkJobEntryType": "SparkJobPythonEntry"
}

For SparkJobScalaEntry, use:

{
  "className": "string",
  "sparkJobEntryType": "SparkJobScalaEntry"
}

TargetLags objects

Set the mode property to specify the type of object.

For Auto, use:

{
  "mode": "Auto"
}

For Custom, use:

{
  "mode": "Custom",
  "values": [ "int" ]
}

LabelingJobMediaProperties objects

Set the mediaType property to specify the type of object.

For Image, use:

{
  "annotationType": "string",
  "mediaType": "Image"
}

For Text, use:

{
  "annotationType": "string",
  "mediaType": "Text"
}

EarlyTerminationPolicy objects

Set the policyType property to specify the type of object.

For Bandit, use:

{
  "policyType": "Bandit",
  "slackAmount": "int",
  "slackFactor": "int"
}

For MedianStopping, use:

{
  "policyType": "MedianStopping"
}

For TruncationSelection, use:

{
  "policyType": "TruncationSelection",
  "truncationPercentage": "int"
}

IdentityConfiguration objects

Set the identityType property to specify the type of object.

For AMLToken, use:

{
  "identityType": "AMLToken"
}

For Managed, use:

{
  "clientId": "string",
  "identityType": "Managed",
  "objectId": "string",
  "resourceId": "string"
}

For UserIdentity, use:

{
  "identityType": "UserIdentity"
}

MLAssistConfiguration objects

Set the mlAssist property to specify the type of object.

For Disabled, use:

{
  "mlAssist": "Disabled"
}

For Enabled, use:

{
  "inferencingComputeBinding": "string",
  "mlAssist": "Enabled",
  "trainingComputeBinding": "string"
}

JobInput objects

Set the jobInputType property to specify the type of object.

For custom_model, use:

{
  "jobInputType": "custom_model",
  "mode": "string",
  "uri": "string"
}

For literal, use:

{
  "jobInputType": "literal",
  "value": "string"
}

For mlflow_model, use:

{
  "jobInputType": "mlflow_model",
  "mode": "string",
  "uri": "string"
}

For mltable, use:

{
  "jobInputType": "mltable",
  "mode": "string",
  "uri": "string"
}

For triton_model, use:

{
  "jobInputType": "triton_model",
  "mode": "string",
  "uri": "string"
}

For uri_file, use:

{
  "jobInputType": "uri_file",
  "mode": "string",
  "uri": "string"
}

For uri_folder, use:

{
  "jobInputType": "uri_folder",
  "mode": "string",
  "uri": "string"
}

ForecastHorizon objects

Set the mode property to specify the type of object.

For Auto, use:

{
  "mode": "Auto"
}

For Custom, use:

{
  "mode": "Custom",
  "value": "int"
}

NCrossValidations objects

Set the mode property to specify the type of object.

For Auto, use:

{
  "mode": "Auto"
}

For Custom, use:

{
  "mode": "Custom",
  "value": "int"
}

SamplingAlgorithm objects

Set the samplingAlgorithmType property to specify the type of object.

For Bayesian, use:

{
  "samplingAlgorithmType": "Bayesian"
}

For Grid, use:

{
  "samplingAlgorithmType": "Grid"
}

For Random, use:

{
  "rule": "string",
  "samplingAlgorithmType": "Random",
  "seed": "int"
}

TriggerBase objects

Set the triggerType property to specify the type of object.

For Cron, use:

{
  "expression": "string",
  "triggerType": "Cron"
}

For Recurrence, use:

{
  "frequency": "string",
  "interval": "int",
  "schedule": {
    "hours": [ "int" ],
    "minutes": [ "int" ],
    "monthDays": [ "int" ],
    "weekDays": [ "string" ]
  },
  "triggerType": "Recurrence"
}

TargetRollingWindowSize objects

Set the mode property to specify the type of object.

For Auto, use:

{
  "mode": "Auto"
}

For Custom, use:

{
  "mode": "Custom",
  "value": "int"
}

JobOutput objects

Set the jobOutputType property to specify the type of object.

For custom_model, use:

{
  "jobOutputType": "custom_model",
  "mode": "string",
  "uri": "string"
}

For mlflow_model, use:

{
  "jobOutputType": "mlflow_model",
  "mode": "string",
  "uri": "string"
}

For mltable, use:

{
  "jobOutputType": "mltable",
  "mode": "string",
  "uri": "string"
}

For triton_model, use:

{
  "jobOutputType": "triton_model",
  "mode": "string",
  "uri": "string"
}

For uri_file, use:

{
  "jobOutputType": "uri_file",
  "mode": "string",
  "uri": "string"
}

For uri_folder, use:

{
  "jobOutputType": "uri_folder",
  "mode": "string",
  "uri": "string"
}

AutoMLVertical objects

Set the taskType property to specify the type of object.

For Classification, use:

{
  "cvSplitColumnNames": [ "string" ],
  "featurizationSettings": {
    "blockedTransformers": [ "string" ],
    "columnNameAndTypes": {
      "{customized property}": "string"
    },
    "datasetLanguage": "string",
    "enableDnnFeaturization": "bool",
    "mode": "string",
    "transformerParams": {
      "{customized property}": [
        {
          "fields": [ "string" ],
          "parameters": {}
        }
      ]
    }
  },
  "fixedParameters": {
    "booster": "string",
    "boostingType": "string",
    "growPolicy": "string",
    "learningRate": "int",
    "maxBin": "int",
    "maxDepth": "int",
    "maxLeaves": "int",
    "minDataInLeaf": "int",
    "minSplitGain": "int",
    "modelName": "string",
    "nEstimators": "int",
    "numLeaves": "int",
    "preprocessorName": "string",
    "regAlpha": "int",
    "regLambda": "int",
    "subsample": "int",
    "subsampleFreq": "int",
    "treeMethod": "string",
    "withMean": "bool",
    "withStd": "bool"
  },
  "limitSettings": {
    "enableEarlyTermination": "bool",
    "exitScore": "int",
    "maxConcurrentTrials": "int",
    "maxCoresPerTrial": "int",
    "maxTrials": "int",
    "sweepConcurrentTrials": "int",
    "sweepTrials": "int",
    "timeout": "string",
    "trialTimeout": "string"
  },
  "nCrossValidations": {
    "mode": "string"
    // For remaining properties, see NCrossValidations objects
  },
  "positiveLabel": "string",
  "primaryMetric": "string",
  "searchSpace": [
    {
      "booster": "string",
      "boostingType": "string",
      "growPolicy": "string",
      "learningRate": "string",
      "maxBin": "string",
      "maxDepth": "string",
      "maxLeaves": "string",
      "minDataInLeaf": "string",
      "minSplitGain": "string",
      "modelName": "string",
      "nEstimators": "string",
      "numLeaves": "string",
      "preprocessorName": "string",
      "regAlpha": "string",
      "regLambda": "string",
      "subsample": "string",
      "subsampleFreq": "string",
      "treeMethod": "string",
      "withMean": "string",
      "withStd": "string"
    }
  ],
  "sweepSettings": {
    "earlyTermination": {
      "delayEvaluation": "int",
      "evaluationInterval": "int",
      "policyType": "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    },
    "samplingAlgorithm": "string"
  },
  "taskType": "Classification",
  "testData": {
    "description": "string",
    "jobInputType": "string",
    "mode": "string",
    "uri": "string"
  },
  "testDataSize": "int",
  "trainingSettings": {
    "allowedTrainingAlgorithms": [ "string" ],
    "blockedTrainingAlgorithms": [ "string" ],
    "enableDnnTraining": "bool",
    "enableModelExplainability": "bool",
    "enableOnnxCompatibleModels": "bool",
    "enableStackEnsemble": "bool",
    "enableVoteEnsemble": "bool",
    "ensembleModelDownloadTimeout": "string",
    "stackEnsembleSettings": {
      "stackMetaLearnerKWargs": {},
      "stackMetaLearnerTrainPercentage": "int",
      "stackMetaLearnerType": "string"
    }
  },
  "validationData": {
    "description": "string",
    "jobInputType": "string",
    "mode": "string",
    "uri": "string"
  },
  "validationDataSize": "int",
  "weightColumnName": "string"
}

For Forecasting, use:

{
  "cvSplitColumnNames": [ "string" ],
  "featurizationSettings": {
    "blockedTransformers": [ "string" ],
    "columnNameAndTypes": {
      "{customized property}": "string"
    },
    "datasetLanguage": "string",
    "enableDnnFeaturization": "bool",
    "mode": "string",
    "transformerParams": {
      "{customized property}": [
        {
          "fields": [ "string" ],
          "parameters": {}
        }
      ]
    }
  },
  "fixedParameters": {
    "booster": "string",
    "boostingType": "string",
    "growPolicy": "string",
    "learningRate": "int",
    "maxBin": "int",
    "maxDepth": "int",
    "maxLeaves": "int",
    "minDataInLeaf": "int",
    "minSplitGain": "int",
    "modelName": "string",
    "nEstimators": "int",
    "numLeaves": "int",
    "preprocessorName": "string",
    "regAlpha": "int",
    "regLambda": "int",
    "subsample": "int",
    "subsampleFreq": "int",
    "treeMethod": "string",
    "withMean": "bool",
    "withStd": "bool"
  },
  "forecastingSettings": {
    "countryOrRegionForHolidays": "string",
    "cvStepSize": "int",
    "featureLags": "string",
    "forecastHorizon": {
      "mode": "string"
      // For remaining properties, see ForecastHorizon objects
    },
    "frequency": "string",
    "seasonality": {
      "mode": "string"
      // For remaining properties, see Seasonality objects
    },
    "shortSeriesHandlingConfig": "string",
    "targetAggregateFunction": "string",
    "targetLags": {
      "mode": "string"
      // For remaining properties, see TargetLags objects
    },
    "targetRollingWindowSize": {
      "mode": "string"
      // For remaining properties, see TargetRollingWindowSize objects
    },
    "timeColumnName": "string",
    "timeSeriesIdColumnNames": [ "string" ],
    "useStl": "string"
  },
  "limitSettings": {
    "enableEarlyTermination": "bool",
    "exitScore": "int",
    "maxConcurrentTrials": "int",
    "maxCoresPerTrial": "int",
    "maxTrials": "int",
    "sweepConcurrentTrials": "int",
    "sweepTrials": "int",
    "timeout": "string",
    "trialTimeout": "string"
  },
  "nCrossValidations": {
    "mode": "string"
    // For remaining properties, see NCrossValidations objects
  },
  "primaryMetric": "string",
  "searchSpace": [
    {
      "booster": "string",
      "boostingType": "string",
      "growPolicy": "string",
      "learningRate": "string",
      "maxBin": "string",
      "maxDepth": "string",
      "maxLeaves": "string",
      "minDataInLeaf": "string",
      "minSplitGain": "string",
      "modelName": "string",
      "nEstimators": "string",
      "numLeaves": "string",
      "preprocessorName": "string",
      "regAlpha": "string",
      "regLambda": "string",
      "subsample": "string",
      "subsampleFreq": "string",
      "treeMethod": "string",
      "withMean": "string",
      "withStd": "string"
    }
  ],
  "sweepSettings": {
    "earlyTermination": {
      "delayEvaluation": "int",
      "evaluationInterval": "int",
      "policyType": "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    },
    "samplingAlgorithm": "string"
  },
  "taskType": "Forecasting",
  "testData": {
    "description": "string",
    "jobInputType": "string",
    "mode": "string",
    "uri": "string"
  },
  "testDataSize": "int",
  "trainingSettings": {
    "allowedTrainingAlgorithms": [ "string" ],
    "blockedTrainingAlgorithms": [ "string" ],
    "enableDnnTraining": "bool",
    "enableModelExplainability": "bool",
    "enableOnnxCompatibleModels": "bool",
    "enableStackEnsemble": "bool",
    "enableVoteEnsemble": "bool",
    "ensembleModelDownloadTimeout": "string",
    "stackEnsembleSettings": {
      "stackMetaLearnerKWargs": {},
      "stackMetaLearnerTrainPercentage": "int",
      "stackMetaLearnerType": "string"
    }
  },
  "validationData": {
    "description": "string",
    "jobInputType": "string",
    "mode": "string",
    "uri": "string"
  },
  "validationDataSize": "int",
  "weightColumnName": "string"
}

For ImageClassification, use:

{
  "limitSettings": {
    "maxConcurrentTrials": "int",
    "maxTrials": "int",
    "timeout": "string"
  },
  "modelSettings": {
    "advancedSettings": "string",
    "amsGradient": "bool",
    "augmentations": "string",
    "beta1": "int",
    "beta2": "int",
    "checkpointFrequency": "int",
    "checkpointModel": {
      "description": "string",
      "jobInputType": "string",
      "mode": "string",
      "uri": "string"
    },
    "checkpointRunId": "string",
    "distributed": "bool",
    "earlyStopping": "bool",
    "earlyStoppingDelay": "int",
    "earlyStoppingPatience": "int",
    "enableOnnxNormalization": "bool",
    "evaluationFrequency": "int",
    "gradientAccumulationStep": "int",
    "layersToFreeze": "int",
    "learningRate": "int",
    "learningRateScheduler": "string",
    "modelName": "string",
    "momentum": "int",
    "nesterov": "bool",
    "numberOfEpochs": "int",
    "numberOfWorkers": "int",
    "optimizer": "string",
    "randomSeed": "int",
    "stepLRGamma": "int",
    "stepLRStepSize": "int",
    "trainingBatchSize": "int",
    "trainingCropSize": "int",
    "validationBatchSize": "int",
    "validationCropSize": "int",
    "validationResizeSize": "int",
    "warmupCosineLRCycles": "int",
    "warmupCosineLRWarmupEpochs": "int",
    "weightDecay": "int",
    "weightedLoss": "int"
  },
  "primaryMetric": "string",
  "searchSpace": [
    {
      "amsGradient": "string",
      "augmentations": "string",
      "beta1": "string",
      "beta2": "string",
      "distributed": "string",
      "earlyStopping": "string",
      "earlyStoppingDelay": "string",
      "earlyStoppingPatience": "string",
      "enableOnnxNormalization": "string",
      "evaluationFrequency": "string",
      "gradientAccumulationStep": "string",
      "layersToFreeze": "string",
      "learningRate": "string",
      "learningRateScheduler": "string",
      "modelName": "string",
      "momentum": "string",
      "nesterov": "string",
      "numberOfEpochs": "string",
      "numberOfWorkers": "string",
      "optimizer": "string",
      "randomSeed": "string",
      "stepLRGamma": "string",
      "stepLRStepSize": "string",
      "trainingBatchSize": "string",
      "trainingCropSize": "string",
      "validationBatchSize": "string",
      "validationCropSize": "string",
      "validationResizeSize": "string",
      "warmupCosineLRCycles": "string",
      "warmupCosineLRWarmupEpochs": "string",
      "weightDecay": "string",
      "weightedLoss": "string"
    }
  ],
  "sweepSettings": {
    "earlyTermination": {
      "delayEvaluation": "int",
      "evaluationInterval": "int",
      "policyType": "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    },
    "samplingAlgorithm": "string"
  },
  "taskType": "ImageClassification",
  "validationData": {
    "description": "string",
    "jobInputType": "string",
    "mode": "string",
    "uri": "string"
  },
  "validationDataSize": "int"
}

For ImageClassificationMultilabel, use:

{
  "limitSettings": {
    "maxConcurrentTrials": "int",
    "maxTrials": "int",
    "timeout": "string"
  },
  "modelSettings": {
    "advancedSettings": "string",
    "amsGradient": "bool",
    "augmentations": "string",
    "beta1": "int",
    "beta2": "int",
    "checkpointFrequency": "int",
    "checkpointModel": {
      "description": "string",
      "jobInputType": "string",
      "mode": "string",
      "uri": "string"
    },
    "checkpointRunId": "string",
    "distributed": "bool",
    "earlyStopping": "bool",
    "earlyStoppingDelay": "int",
    "earlyStoppingPatience": "int",
    "enableOnnxNormalization": "bool",
    "evaluationFrequency": "int",
    "gradientAccumulationStep": "int",
    "layersToFreeze": "int",
    "learningRate": "int",
    "learningRateScheduler": "string",
    "modelName": "string",
    "momentum": "int",
    "nesterov": "bool",
    "numberOfEpochs": "int",
    "numberOfWorkers": "int",
    "optimizer": "string",
    "randomSeed": "int",
    "stepLRGamma": "int",
    "stepLRStepSize": "int",
    "trainingBatchSize": "int",
    "trainingCropSize": "int",
    "validationBatchSize": "int",
    "validationCropSize": "int",
    "validationResizeSize": "int",
    "warmupCosineLRCycles": "int",
    "warmupCosineLRWarmupEpochs": "int",
    "weightDecay": "int",
    "weightedLoss": "int"
  },
  "primaryMetric": "string",
  "searchSpace": [
    {
      "amsGradient": "string",
      "augmentations": "string",
      "beta1": "string",
      "beta2": "string",
      "distributed": "string",
      "earlyStopping": "string",
      "earlyStoppingDelay": "string",
      "earlyStoppingPatience": "string",
      "enableOnnxNormalization": "string",
      "evaluationFrequency": "string",
      "gradientAccumulationStep": "string",
      "layersToFreeze": "string",
      "learningRate": "string",
      "learningRateScheduler": "string",
      "modelName": "string",
      "momentum": "string",
      "nesterov": "string",
      "numberOfEpochs": "string",
      "numberOfWorkers": "string",
      "optimizer": "string",
      "randomSeed": "string",
      "stepLRGamma": "string",
      "stepLRStepSize": "string",
      "trainingBatchSize": "string",
      "trainingCropSize": "string",
      "validationBatchSize": "string",
      "validationCropSize": "string",
      "validationResizeSize": "string",
      "warmupCosineLRCycles": "string",
      "warmupCosineLRWarmupEpochs": "string",
      "weightDecay": "string",
      "weightedLoss": "string"
    }
  ],
  "sweepSettings": {
    "earlyTermination": {
      "delayEvaluation": "int",
      "evaluationInterval": "int",
      "policyType": "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    },
    "samplingAlgorithm": "string"
  },
  "taskType": "ImageClassificationMultilabel",
  "validationData": {
    "description": "string",
    "jobInputType": "string",
    "mode": "string",
    "uri": "string"
  },
  "validationDataSize": "int"
}

For ImageInstanceSegmentation, use:

{
  "limitSettings": {
    "maxConcurrentTrials": "int",
    "maxTrials": "int",
    "timeout": "string"
  },
  "modelSettings": {
    "advancedSettings": "string",
    "amsGradient": "bool",
    "augmentations": "string",
    "beta1": "int",
    "beta2": "int",
    "boxDetectionsPerImage": "int",
    "boxScoreThreshold": "int",
    "checkpointFrequency": "int",
    "checkpointModel": {
      "description": "string",
      "jobInputType": "string",
      "mode": "string",
      "uri": "string"
    },
    "checkpointRunId": "string",
    "distributed": "bool",
    "earlyStopping": "bool",
    "earlyStoppingDelay": "int",
    "earlyStoppingPatience": "int",
    "enableOnnxNormalization": "bool",
    "evaluationFrequency": "int",
    "gradientAccumulationStep": "int",
    "imageSize": "int",
    "layersToFreeze": "int",
    "learningRate": "int",
    "learningRateScheduler": "string",
    "maxSize": "int",
    "minSize": "int",
    "modelName": "string",
    "modelSize": "string",
    "momentum": "int",
    "multiScale": "bool",
    "nesterov": "bool",
    "nmsIouThreshold": "int",
    "numberOfEpochs": "int",
    "numberOfWorkers": "int",
    "optimizer": "string",
    "randomSeed": "int",
    "stepLRGamma": "int",
    "stepLRStepSize": "int",
    "tileGridSize": "string",
    "tileOverlapRatio": "int",
    "tilePredictionsNmsThreshold": "int",
    "trainingBatchSize": "int",
    "validationBatchSize": "int",
    "validationIouThreshold": "int",
    "validationMetricType": "string",
    "warmupCosineLRCycles": "int",
    "warmupCosineLRWarmupEpochs": "int",
    "weightDecay": "int"
  },
  "primaryMetric": "string",
  "searchSpace": [
    {
      "amsGradient": "string",
      "augmentations": "string",
      "beta1": "string",
      "beta2": "string",
      "boxDetectionsPerImage": "string",
      "boxScoreThreshold": "string",
      "distributed": "string",
      "earlyStopping": "string",
      "earlyStoppingDelay": "string",
      "earlyStoppingPatience": "string",
      "enableOnnxNormalization": "string",
      "evaluationFrequency": "string",
      "gradientAccumulationStep": "string",
      "imageSize": "string",
      "layersToFreeze": "string",
      "learningRate": "string",
      "learningRateScheduler": "string",
      "maxSize": "string",
      "minSize": "string",
      "modelName": "string",
      "modelSize": "string",
      "momentum": "string",
      "multiScale": "string",
      "nesterov": "string",
      "nmsIouThreshold": "string",
      "numberOfEpochs": "string",
      "numberOfWorkers": "string",
      "optimizer": "string",
      "randomSeed": "string",
      "stepLRGamma": "string",
      "stepLRStepSize": "string",
      "tileGridSize": "string",
      "tileOverlapRatio": "string",
      "tilePredictionsNmsThreshold": "string",
      "trainingBatchSize": "string",
      "validationBatchSize": "string",
      "validationIouThreshold": "string",
      "validationMetricType": "string",
      "warmupCosineLRCycles": "string",
      "warmupCosineLRWarmupEpochs": "string",
      "weightDecay": "string"
    }
  ],
  "sweepSettings": {
    "earlyTermination": {
      "delayEvaluation": "int",
      "evaluationInterval": "int",
      "policyType": "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    },
    "samplingAlgorithm": "string"
  },
  "taskType": "ImageInstanceSegmentation",
  "validationData": {
    "description": "string",
    "jobInputType": "string",
    "mode": "string",
    "uri": "string"
  },
  "validationDataSize": "int"
}

For ImageObjectDetection, use:

{
  "limitSettings": {
    "maxConcurrentTrials": "int",
    "maxTrials": "int",
    "timeout": "string"
  },
  "modelSettings": {
    "advancedSettings": "string",
    "amsGradient": "bool",
    "augmentations": "string",
    "beta1": "int",
    "beta2": "int",
    "boxDetectionsPerImage": "int",
    "boxScoreThreshold": "int",
    "checkpointFrequency": "int",
    "checkpointModel": {
      "description": "string",
      "jobInputType": "string",
      "mode": "string",
      "uri": "string"
    },
    "checkpointRunId": "string",
    "distributed": "bool",
    "earlyStopping": "bool",
    "earlyStoppingDelay": "int",
    "earlyStoppingPatience": "int",
    "enableOnnxNormalization": "bool",
    "evaluationFrequency": "int",
    "gradientAccumulationStep": "int",
    "imageSize": "int",
    "layersToFreeze": "int",
    "learningRate": "int",
    "learningRateScheduler": "string",
    "maxSize": "int",
    "minSize": "int",
    "modelName": "string",
    "modelSize": "string",
    "momentum": "int",
    "multiScale": "bool",
    "nesterov": "bool",
    "nmsIouThreshold": "int",
    "numberOfEpochs": "int",
    "numberOfWorkers": "int",
    "optimizer": "string",
    "randomSeed": "int",
    "stepLRGamma": "int",
    "stepLRStepSize": "int",
    "tileGridSize": "string",
    "tileOverlapRatio": "int",
    "tilePredictionsNmsThreshold": "int",
    "trainingBatchSize": "int",
    "validationBatchSize": "int",
    "validationIouThreshold": "int",
    "validationMetricType": "string",
    "warmupCosineLRCycles": "int",
    "warmupCosineLRWarmupEpochs": "int",
    "weightDecay": "int"
  },
  "primaryMetric": "string",
  "searchSpace": [
    {
      "amsGradient": "string",
      "augmentations": "string",
      "beta1": "string",
      "beta2": "string",
      "boxDetectionsPerImage": "string",
      "boxScoreThreshold": "string",
      "distributed": "string",
      "earlyStopping": "string",
      "earlyStoppingDelay": "string",
      "earlyStoppingPatience": "string",
      "enableOnnxNormalization": "string",
      "evaluationFrequency": "string",
      "gradientAccumulationStep": "string",
      "imageSize": "string",
      "layersToFreeze": "string",
      "learningRate": "string",
      "learningRateScheduler": "string",
      "maxSize": "string",
      "minSize": "string",
      "modelName": "string",
      "modelSize": "string",
      "momentum": "string",
      "multiScale": "string",
      "nesterov": "string",
      "nmsIouThreshold": "string",
      "numberOfEpochs": "string",
      "numberOfWorkers": "string",
      "optimizer": "string",
      "randomSeed": "string",
      "stepLRGamma": "string",
      "stepLRStepSize": "string",
      "tileGridSize": "string",
      "tileOverlapRatio": "string",
      "tilePredictionsNmsThreshold": "string",
      "trainingBatchSize": "string",
      "validationBatchSize": "string",
      "validationIouThreshold": "string",
      "validationMetricType": "string",
      "warmupCosineLRCycles": "string",
      "warmupCosineLRWarmupEpochs": "string",
      "weightDecay": "string"
    }
  ],
  "sweepSettings": {
    "earlyTermination": {
      "delayEvaluation": "int",
      "evaluationInterval": "int",
      "policyType": "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    },
    "samplingAlgorithm": "string"
  },
  "taskType": "ImageObjectDetection",
  "validationData": {
    "description": "string",
    "jobInputType": "string",
    "mode": "string",
    "uri": "string"
  },
  "validationDataSize": "int"
}

For Regression, use:

{
  "cvSplitColumnNames": [ "string" ],
  "featurizationSettings": {
    "blockedTransformers": [ "string" ],
    "columnNameAndTypes": {
      "{customized property}": "string"
    },
    "datasetLanguage": "string",
    "enableDnnFeaturization": "bool",
    "mode": "string",
    "transformerParams": {
      "{customized property}": [
        {
          "fields": [ "string" ],
          "parameters": {}
        }
      ]
    }
  },
  "fixedParameters": {
    "booster": "string",
    "boostingType": "string",
    "growPolicy": "string",
    "learningRate": "int",
    "maxBin": "int",
    "maxDepth": "int",
    "maxLeaves": "int",
    "minDataInLeaf": "int",
    "minSplitGain": "int",
    "modelName": "string",
    "nEstimators": "int",
    "numLeaves": "int",
    "preprocessorName": "string",
    "regAlpha": "int",
    "regLambda": "int",
    "subsample": "int",
    "subsampleFreq": "int",
    "treeMethod": "string",
    "withMean": "bool",
    "withStd": "bool"
  },
  "limitSettings": {
    "enableEarlyTermination": "bool",
    "exitScore": "int",
    "maxConcurrentTrials": "int",
    "maxCoresPerTrial": "int",
    "maxTrials": "int",
    "sweepConcurrentTrials": "int",
    "sweepTrials": "int",
    "timeout": "string",
    "trialTimeout": "string"
  },
  "nCrossValidations": {
    "mode": "string"
    // For remaining properties, see NCrossValidations objects
  },
  "primaryMetric": "string",
  "searchSpace": [
    {
      "booster": "string",
      "boostingType": "string",
      "growPolicy": "string",
      "learningRate": "string",
      "maxBin": "string",
      "maxDepth": "string",
      "maxLeaves": "string",
      "minDataInLeaf": "string",
      "minSplitGain": "string",
      "modelName": "string",
      "nEstimators": "string",
      "numLeaves": "string",
      "preprocessorName": "string",
      "regAlpha": "string",
      "regLambda": "string",
      "subsample": "string",
      "subsampleFreq": "string",
      "treeMethod": "string",
      "withMean": "string",
      "withStd": "string"
    }
  ],
  "sweepSettings": {
    "earlyTermination": {
      "delayEvaluation": "int",
      "evaluationInterval": "int",
      "policyType": "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    },
    "samplingAlgorithm": "string"
  },
  "taskType": "Regression",
  "testData": {
    "description": "string",
    "jobInputType": "string",
    "mode": "string",
    "uri": "string"
  },
  "testDataSize": "int",
  "trainingSettings": {
    "allowedTrainingAlgorithms": [ "string" ],
    "blockedTrainingAlgorithms": [ "string" ],
    "enableDnnTraining": "bool",
    "enableModelExplainability": "bool",
    "enableOnnxCompatibleModels": "bool",
    "enableStackEnsemble": "bool",
    "enableVoteEnsemble": "bool",
    "ensembleModelDownloadTimeout": "string",
    "stackEnsembleSettings": {
      "stackMetaLearnerKWargs": {},
      "stackMetaLearnerTrainPercentage": "int",
      "stackMetaLearnerType": "string"
    }
  },
  "validationData": {
    "description": "string",
    "jobInputType": "string",
    "mode": "string",
    "uri": "string"
  },
  "validationDataSize": "int",
  "weightColumnName": "string"
}

For TextClassification, use:

{
  "featurizationSettings": {
    "datasetLanguage": "string"
  },
  "fixedParameters": {
    "gradientAccumulationSteps": "int",
    "learningRate": "int",
    "learningRateScheduler": "string",
    "modelName": "string",
    "numberOfEpochs": "int",
    "trainingBatchSize": "int",
    "validationBatchSize": "int",
    "warmupRatio": "int",
    "weightDecay": "int"
  },
  "limitSettings": {
    "maxConcurrentTrials": "int",
    "maxNodes": "int",
    "maxTrials": "int",
    "timeout": "string",
    "trialTimeout": "string"
  },
  "primaryMetric": "string",
  "searchSpace": [
    {
      "gradientAccumulationSteps": "string",
      "learningRate": "string",
      "learningRateScheduler": "string",
      "modelName": "string",
      "numberOfEpochs": "string",
      "trainingBatchSize": "string",
      "validationBatchSize": "string",
      "warmupRatio": "string",
      "weightDecay": "string"
    }
  ],
  "sweepSettings": {
    "earlyTermination": {
      "delayEvaluation": "int",
      "evaluationInterval": "int",
      "policyType": "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    },
    "samplingAlgorithm": "string"
  },
  "taskType": "TextClassification",
  "validationData": {
    "description": "string",
    "jobInputType": "string",
    "mode": "string",
    "uri": "string"
  }
}

For TextClassificationMultilabel, use:

{
  "featurizationSettings": {
    "datasetLanguage": "string"
  },
  "fixedParameters": {
    "gradientAccumulationSteps": "int",
    "learningRate": "int",
    "learningRateScheduler": "string",
    "modelName": "string",
    "numberOfEpochs": "int",
    "trainingBatchSize": "int",
    "validationBatchSize": "int",
    "warmupRatio": "int",
    "weightDecay": "int"
  },
  "limitSettings": {
    "maxConcurrentTrials": "int",
    "maxNodes": "int",
    "maxTrials": "int",
    "timeout": "string",
    "trialTimeout": "string"
  },
  "searchSpace": [
    {
      "gradientAccumulationSteps": "string",
      "learningRate": "string",
      "learningRateScheduler": "string",
      "modelName": "string",
      "numberOfEpochs": "string",
      "trainingBatchSize": "string",
      "validationBatchSize": "string",
      "warmupRatio": "string",
      "weightDecay": "string"
    }
  ],
  "sweepSettings": {
    "earlyTermination": {
      "delayEvaluation": "int",
      "evaluationInterval": "int",
      "policyType": "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    },
    "samplingAlgorithm": "string"
  },
  "taskType": "TextClassificationMultilabel",
  "validationData": {
    "description": "string",
    "jobInputType": "string",
    "mode": "string",
    "uri": "string"
  }
}

For TextNER, use:

{
  "featurizationSettings": {
    "datasetLanguage": "string"
  },
  "fixedParameters": {
    "gradientAccumulationSteps": "int",
    "learningRate": "int",
    "learningRateScheduler": "string",
    "modelName": "string",
    "numberOfEpochs": "int",
    "trainingBatchSize": "int",
    "validationBatchSize": "int",
    "warmupRatio": "int",
    "weightDecay": "int"
  },
  "limitSettings": {
    "maxConcurrentTrials": "int",
    "maxNodes": "int",
    "maxTrials": "int",
    "timeout": "string",
    "trialTimeout": "string"
  },
  "searchSpace": [
    {
      "gradientAccumulationSteps": "string",
      "learningRate": "string",
      "learningRateScheduler": "string",
      "modelName": "string",
      "numberOfEpochs": "string",
      "trainingBatchSize": "string",
      "validationBatchSize": "string",
      "warmupRatio": "string",
      "weightDecay": "string"
    }
  ],
  "sweepSettings": {
    "earlyTermination": {
      "delayEvaluation": "int",
      "evaluationInterval": "int",
      "policyType": "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    },
    "samplingAlgorithm": "string"
  },
  "taskType": "TextNER",
  "validationData": {
    "description": "string",
    "jobInputType": "string",
    "mode": "string",
    "uri": "string"
  }
}

Seasonality objects

Set the mode property to specify the type of object.

For Auto, use:

{
  "mode": "Auto"
}

For Custom, use:

{
  "mode": "Custom",
  "value": "int"
}

Property values

AllNodes

Name Description Value
nodesValueType [Required] Type of the Nodes value 'All' (required)

AmlToken

Name Description Value
identityType [Required] Specifies the type of identity framework. 'AMLToken' (required)

AutoForecastHorizon

Name Description Value
mode [Required] Set forecast horizon value selection mode. 'Auto' (required)

AutologgerSettings

Name Description Value
mlflowAutologger [Required] Indicates whether mlflow autologger is enabled. 'Disabled'
'Enabled' (required)

AutoMLJob

Name Description Value
environmentId The ARM resource ID of the Environment specification for the job.
This is optional value to provide, if not provided, AutoML will default this to Production AutoML curated environment version when running the job.
string
environmentVariables Environment variables included in the job. AutoMLJobEnvironmentVariables
jobType [Required] Specifies the type of job. 'AutoML' (required)
outputs Mapping of output data bindings used in the job. AutoMLJobOutputs
resources Compute Resource configuration for the job. JobResourceConfiguration
taskDetails [Required] This represents scenario which can be one of Tables/NLP/Image AutoMLVertical (required)

AutoMLJobEnvironmentVariables

Name Description Value

AutoMLJobOutputs

Name Description Value

AutoMLVertical

Name Description Value
logVerbosity Log verbosity for the job. 'Critical'
'Debug'
'Error'
'Info'
'NotSet'
'Warning'
targetColumnName Target column name: This is prediction values column.
Also known as label column name in context of classification tasks.
string
taskType Set to 'Classification' for type Classification. Set to 'Forecasting' for type Forecasting. Set to 'ImageClassification' for type ImageClassification. Set to 'ImageClassificationMultilabel' for type ImageClassificationMultilabel. Set to 'ImageInstanceSegmentation' for type ImageInstanceSegmentation. Set to 'ImageObjectDetection' for type ImageObjectDetection. Set to 'Regression' for type Regression. Set to 'TextClassification' for type TextClassification. Set to 'TextClassificationMultilabel' for type TextClassificationMultilabel. Set to 'TextNER' for type TextNer. 'Classification'
'Forecasting'
'ImageClassification'
'ImageClassificationMultilabel'
'ImageInstanceSegmentation'
'ImageObjectDetection'
'Regression'
'TextClassification'
'TextClassificationMultilabel'
'TextNER' (required)
trainingData [Required] Training data input. MLTableJobInput (required)

AutoNCrossValidations

Name Description Value
mode [Required] Mode for determining N-Cross validations. 'Auto' (required)

AutoSeasonality

Name Description Value
mode [Required] Seasonality mode. 'Auto' (required)

AutoTargetLags

Name Description Value
mode [Required] Set target lags mode - Auto/Custom 'Auto' (required)

AutoTargetRollingWindowSize

Name Description Value
mode [Required] TargetRollingWindowSiz detection mode. 'Auto' (required)

BanditPolicy

Name Description Value
policyType [Required] Name of policy configuration 'Bandit' (required)
slackAmount Absolute distance allowed from the best performing run. int
slackFactor Ratio of the allowed distance from the best performing run. int

BayesianSamplingAlgorithm

Name Description Value
samplingAlgorithmType [Required] The algorithm used for generating hyperparameter values, along with configuration properties 'Bayesian' (required)

Classification

Name Description Value
cvSplitColumnNames Columns to use for CVSplit data. string[]
featurizationSettings Featurization inputs needed for AutoML job. TableVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. TableFixedParameters
limitSettings Execution constraints for AutoMLJob. TableVerticalLimitSettings
nCrossValidations Number of cross validation folds to be applied on training dataset
when validation dataset is not provided.
NCrossValidations
positiveLabel Positive label for binary metrics calculation. string
primaryMetric Primary metric for the task. 'Accuracy'
'AUCWeighted'
'AveragePrecisionScoreWeighted'
'NormMacroRecall'
'PrecisionScoreWeighted'
searchSpace Search space for sampling different combinations of models and their hyperparameters. TableParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. TableSweepSettings
taskType [Required] Task type for AutoMLJob. 'Classification' (required)
testData Test data input. MLTableJobInput
testDataSize The fraction of test dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
trainingSettings Inputs for training phase for an AutoML Job. ClassificationTrainingSettings
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
weightColumnName The name of the sample weight column. Automated ML supports a weighted column as an input, causing rows in the data to be weighted up or down. string

ClassificationTrainingSettings

Name Description Value
allowedTrainingAlgorithms Allowed models for classification task. String array containing any of:
'BernoulliNaiveBayes'
'DecisionTree'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LightGBM'
'LinearSVM'
'LogisticRegression'
'MultinomialNaiveBayes'
'RandomForest'
'SGD'
'SVM'
'XGBoostClassifier'
blockedTrainingAlgorithms Blocked models for classification task. String array containing any of:
'BernoulliNaiveBayes'
'DecisionTree'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LightGBM'
'LinearSVM'
'LogisticRegression'
'MultinomialNaiveBayes'
'RandomForest'
'SGD'
'SVM'
'XGBoostClassifier'
enableDnnTraining Enable recommendation of DNN models. bool
enableModelExplainability Flag to turn on explainability on best model. bool
enableOnnxCompatibleModels Flag for enabling onnx compatible models. bool
enableStackEnsemble Enable stack ensemble run. bool
enableVoteEnsemble Enable voting ensemble run. bool
ensembleModelDownloadTimeout During VotingEnsemble and StackEnsemble model generation, multiple fitted models from the previous child runs are downloaded.
Configure this parameter with a higher value than 300 secs, if more time is needed.
string
stackEnsembleSettings Stack ensemble settings for stack ensemble run. StackEnsembleSettings

ColumnTransformer

Name Description Value
fields Fields to apply transformer logic on. string[]
parameters Different properties to be passed to transformer.
Input expected is dictionary of key,value pairs in JSON format.
any

CommandJob

Name Description Value
autologgerSettings Distribution configuration of the job. If set, this should be one of Mpi, Tensorflow, PyTorch, or null. AutologgerSettings
codeId ARM resource ID of the code asset. string
command [Required] The command to execute on startup of the job. eg. "python train.py" string

Constraints:
Min length = 1
Pattern = [a-zA-Z0-9_] (required)
distribution Distribution configuration of the job. If set, this should be one of Mpi, Tensorflow, PyTorch, or null. DistributionConfiguration
environmentId [Required] The ARM resource ID of the Environment specification for the job. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)
environmentVariables Environment variables included in the job. CommandJobEnvironmentVariables
inputs Mapping of input data bindings used in the job. CommandJobInputs
jobType [Required] Specifies the type of job. 'Command' (required)
limits Command Job limit. CommandJobLimits
outputs Mapping of output data bindings used in the job. CommandJobOutputs
resources Compute Resource configuration for the job. JobResourceConfiguration

CommandJobEnvironmentVariables

Name Description Value

CommandJobInputs

Name Description Value

CommandJobLimits

Name Description Value
jobLimitsType [Required] JobLimit type. 'Command'
'Sweep' (required)
timeout The max run duration in ISO 8601 format, after which the job will be cancelled. Only supports duration with precision as low as Seconds. string

CommandJobOutputs

Name Description Value

CronTrigger

Name Description Value
expression [Required] Specifies cron expression of schedule.
The expression should follow NCronTab format.
string

Constraints:
Pattern = [a-zA-Z0-9_] (required)
triggerType [Required] 'Cron' (required)

CustomForecastHorizon

Name Description Value
mode [Required] Set forecast horizon value selection mode. 'Custom' (required)
value [Required] Forecast horizon value. int (required)

CustomModelJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'custom_model' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

CustomModelJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'custom_model' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

CustomNCrossValidations

Name Description Value
mode [Required] Mode for determining N-Cross validations. 'Custom' (required)
value [Required] N-Cross validations value. int (required)

CustomSeasonality

Name Description Value
mode [Required] Seasonality mode. 'Custom' (required)
value [Required] Seasonality value. int (required)

CustomTargetLags

Name Description Value
mode [Required] Set target lags mode - Auto/Custom 'Custom' (required)
values [Required] Set target lags values. int[] (required)

CustomTargetRollingWindowSize

Name Description Value
mode [Required] TargetRollingWindowSiz detection mode. 'Custom' (required)
value [Required] TargetRollingWindowSize value. int (required)

DistributionConfiguration

Name Description Value
distributionType Set to 'Mpi' for type Mpi. Set to 'PyTorch' for type PyTorch. Set to 'TensorFlow' for type TensorFlow. 'Mpi'
'PyTorch'
'TensorFlow' (required)

EarlyTerminationPolicy

Name Description Value
delayEvaluation Number of intervals by which to delay the first evaluation. int
evaluationInterval Interval (number of runs) between policy evaluations. int
policyType Set to 'Bandit' for type BanditPolicy. Set to 'MedianStopping' for type MedianStoppingPolicy. Set to 'TruncationSelection' for type TruncationSelectionPolicy. 'Bandit'
'MedianStopping'
'TruncationSelection' (required)

EndpointScheduleAction

Name Description Value
actionType [Required] Specifies the action type of the schedule 'InvokeBatchEndpoint' (required)
endpointInvocationDefinition [Required] Defines Schedule action definition details.
<see href="TBD" />
any (required)

ForecastHorizon

Name Description Value
mode Set to 'Auto' for type AutoForecastHorizon. Set to 'Custom' for type CustomForecastHorizon. 'Auto'
'Custom' (required)

Forecasting

Name Description Value
cvSplitColumnNames Columns to use for CVSplit data. string[]
featurizationSettings Featurization inputs needed for AutoML job. TableVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. TableFixedParameters
forecastingSettings Forecasting task specific inputs. ForecastingSettings
limitSettings Execution constraints for AutoMLJob. TableVerticalLimitSettings
nCrossValidations Number of cross validation folds to be applied on training dataset
when validation dataset is not provided.
NCrossValidations
primaryMetric Primary metric for forecasting task. 'NormalizedMeanAbsoluteError'
'NormalizedRootMeanSquaredError'
'R2Score'
'SpearmanCorrelation'
searchSpace Search space for sampling different combinations of models and their hyperparameters. TableParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. TableSweepSettings
taskType [Required] Task type for AutoMLJob. 'Forecasting' (required)
testData Test data input. MLTableJobInput
testDataSize The fraction of test dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
trainingSettings Inputs for training phase for an AutoML Job. ForecastingTrainingSettings
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
weightColumnName The name of the sample weight column. Automated ML supports a weighted column as an input, causing rows in the data to be weighted up or down. string

ForecastingSettings

Name Description Value
countryOrRegionForHolidays Country or region for holidays for forecasting tasks.
These should be ISO 3166 two-letter country/region codes, for example 'US' or 'GB'.
string
cvStepSize Number of periods between the origin time of one CV fold and the next fold. For
example, if CVStepSize = 3 for daily data, the origin time for each fold will be
three days apart.
int
featureLags Flag for generating lags for the numeric features with 'auto' or null. 'Auto'
'None'
forecastHorizon The desired maximum forecast horizon in units of time-series frequency. ForecastHorizon
frequency When forecasting, this parameter represents the period with which the forecast is desired, for example daily, weekly, yearly, etc. The forecast frequency is dataset frequency by default. string
seasonality Set time series seasonality as an integer multiple of the series frequency.
If seasonality is set to 'auto', it will be inferred.
Seasonality
shortSeriesHandlingConfig The parameter defining how if AutoML should handle short time series. 'Auto'
'Drop'
'None'
'Pad'
targetAggregateFunction The function to be used to aggregate the time series target column to conform to a user specified frequency.
If the TargetAggregateFunction is set i.e. not 'None', but the freq parameter is not set, the error is raised. The possible target aggregation functions are: "sum", "max", "min" and "mean".
'Max'
'Mean'
'Min'
'None'
'Sum'
targetLags The number of past periods to lag from the target column. TargetLags
targetRollingWindowSize The number of past periods used to create a rolling window average of the target column. TargetRollingWindowSize
timeColumnName The name of the time column. This parameter is required when forecasting to specify the datetime column in the input data used for building the time series and inferring its frequency. string
timeSeriesIdColumnNames The names of columns used to group a timeseries. It can be used to create multiple series.
If grain is not defined, the data set is assumed to be one time-series. This parameter is used with task type forecasting.
string[]
useStl Configure STL Decomposition of the time-series target column. 'None'
'Season'
'SeasonTrend'

ForecastingTrainingSettings

Name Description Value
allowedTrainingAlgorithms Allowed models for forecasting task. String array containing any of:
'Arimax'
'AutoArima'
'Average'
'DecisionTree'
'ElasticNet'
'ExponentialSmoothing'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LassoLars'
'LightGBM'
'Naive'
'Prophet'
'RandomForest'
'SeasonalAverage'
'SeasonalNaive'
'SGD'
'TCNForecaster'
'XGBoostRegressor'
blockedTrainingAlgorithms Blocked models for forecasting task. String array containing any of:
'Arimax'
'AutoArima'
'Average'
'DecisionTree'
'ElasticNet'
'ExponentialSmoothing'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LassoLars'
'LightGBM'
'Naive'
'Prophet'
'RandomForest'
'SeasonalAverage'
'SeasonalNaive'
'SGD'
'TCNForecaster'
'XGBoostRegressor'
enableDnnTraining Enable recommendation of DNN models. bool
enableModelExplainability Flag to turn on explainability on best model. bool
enableOnnxCompatibleModels Flag for enabling onnx compatible models. bool
enableStackEnsemble Enable stack ensemble run. bool
enableVoteEnsemble Enable voting ensemble run. bool
ensembleModelDownloadTimeout During VotingEnsemble and StackEnsemble model generation, multiple fitted models from the previous child runs are downloaded.
Configure this parameter with a higher value than 300 secs, if more time is needed.
string
stackEnsembleSettings Stack ensemble settings for stack ensemble run. StackEnsembleSettings

GridSamplingAlgorithm

Name Description Value
samplingAlgorithmType [Required] The algorithm used for generating hyperparameter values, along with configuration properties 'Grid' (required)

IdentityConfiguration

Name Description Value
identityType Set to 'AMLToken' for type AmlToken. Set to 'Managed' for type ManagedIdentity. Set to 'UserIdentity' for type UserIdentity. 'AMLToken'
'Managed'
'UserIdentity' (required)

ImageClassification

Name Description Value
limitSettings [Required] Limit settings for the AutoML job. ImageLimitSettings (required)
modelSettings Settings used for training the model. ImageModelSettingsClassification
primaryMetric Primary metric to optimize for this task. 'Accuracy'
'AUCWeighted'
'AveragePrecisionScoreWeighted'
'NormMacroRecall'
'PrecisionScoreWeighted'
searchSpace Search space for sampling different combinations of models and their hyperparameters. ImageModelDistributionSettingsClassification[]
sweepSettings Model sweeping and hyperparameter sweeping related settings. ImageSweepSettings
taskType [Required] Task type for AutoMLJob. 'ImageClassification' (required)
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int

ImageClassificationMultilabel

Name Description Value
limitSettings [Required] Limit settings for the AutoML job. ImageLimitSettings (required)
modelSettings Settings used for training the model. ImageModelSettingsClassification
primaryMetric Primary metric to optimize for this task. 'Accuracy'
'AUCWeighted'
'AveragePrecisionScoreWeighted'
'IOU'
'NormMacroRecall'
'PrecisionScoreWeighted'
searchSpace Search space for sampling different combinations of models and their hyperparameters. ImageModelDistributionSettingsClassification[]
sweepSettings Model sweeping and hyperparameter sweeping related settings. ImageSweepSettings
taskType [Required] Task type for AutoMLJob. 'ImageClassificationMultilabel' (required)
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int

ImageInstanceSegmentation

Name Description Value
limitSettings [Required] Limit settings for the AutoML job. ImageLimitSettings (required)
modelSettings Settings used for training the model. ImageModelSettingsObjectDetection
primaryMetric Primary metric to optimize for this task. 'MeanAveragePrecision'
searchSpace Search space for sampling different combinations of models and their hyperparameters. ImageModelDistributionSettingsObjectDetection[]
sweepSettings Model sweeping and hyperparameter sweeping related settings. ImageSweepSettings
taskType [Required] Task type for AutoMLJob. 'ImageInstanceSegmentation' (required)
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int

ImageLimitSettings

Name Description Value
maxConcurrentTrials Maximum number of concurrent AutoML iterations. int
maxTrials Maximum number of AutoML iterations. int
timeout AutoML job timeout. string

ImageModelDistributionSettingsClassification

Name Description Value
amsGradient Enable AMSGrad when optimizer is 'adam' or 'adamw'. string
augmentations Settings for using Augmentations. string
beta1 Value of 'beta1' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. string
beta2 Value of 'beta2' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. string
distributed Whether to use distributer training. string
earlyStopping Enable early stopping logic during training. string
earlyStoppingDelay Minimum number of epochs or validation evaluations to wait before primary metric improvement
is tracked for early stopping. Must be a positive integer.
string
earlyStoppingPatience Minimum number of epochs or validation evaluations with no primary metric improvement before
the run is stopped. Must be a positive integer.
string
enableOnnxNormalization Enable normalization when exporting ONNX model. string
evaluationFrequency Frequency to evaluate validation dataset to get metric scores. Must be a positive integer. string
gradientAccumulationStep Gradient accumulation means running a configured number of "GradAccumulationStep" steps without
updating the model weights while accumulating the gradients of those steps, and then using
the accumulated gradients to compute the weight updates. Must be a positive integer.
string
layersToFreeze Number of layers to freeze for the model. Must be a positive integer.
For instance, passing 2 as value for 'seresnext' means
freezing layer0 and layer1. For a full list of models supported and details on layer freeze, please
see: /azure/machine-learning/how-to-auto-train-image-models.
string
learningRate Initial learning rate. Must be a float in the range [0, 1]. string
learningRateScheduler Type of learning rate scheduler. Must be 'warmup_cosine' or 'step'. string
modelName Name of the model to use for training.
For more information on the available models please visit the official documentation:
/azure/machine-learning/how-to-auto-train-image-models.
string
momentum Value of momentum when optimizer is 'sgd'. Must be a float in the range [0, 1]. string
nesterov Enable nesterov when optimizer is 'sgd'. string
numberOfEpochs Number of training epochs. Must be a positive integer. string
numberOfWorkers Number of data loader workers. Must be a non-negative integer. string
optimizer Type of optimizer. Must be either 'sgd', 'adam', or 'adamw'. string
randomSeed Random seed to be used when using deterministic training. string
stepLRGamma Value of gamma when learning rate scheduler is 'step'. Must be a float in the range [0, 1]. string
stepLRStepSize Value of step size when learning rate scheduler is 'step'. Must be a positive integer. string
trainingBatchSize Training batch size. Must be a positive integer. string
trainingCropSize Image crop size that is input to the neural network for the training dataset. Must be a positive integer. string
validationBatchSize Validation batch size. Must be a positive integer. string
validationCropSize Image crop size that is input to the neural network for the validation dataset. Must be a positive integer. string
validationResizeSize Image size to which to resize before cropping for validation dataset. Must be a positive integer. string
warmupCosineLRCycles Value of cosine cycle when learning rate scheduler is 'warmup_cosine'. Must be a float in the range [0, 1]. string
warmupCosineLRWarmupEpochs Value of warmup epochs when learning rate scheduler is 'warmup_cosine'. Must be a positive integer. string
weightDecay Value of weight decay when optimizer is 'sgd', 'adam', or 'adamw'. Must be a float in the range[0, 1]. string
weightedLoss Weighted loss. The accepted values are 0 for no weighted loss.
1 for weighted loss with sqrt.(class_weights). 2 for weighted loss with class_weights. Must be 0 or 1 or 2.
string

ImageModelDistributionSettingsObjectDetection

Name Description Value
amsGradient Enable AMSGrad when optimizer is 'adam' or 'adamw'. string
augmentations Settings for using Augmentations. string
beta1 Value of 'beta1' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. string
beta2 Value of 'beta2' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. string
boxDetectionsPerImage Maximum number of detections per image, for all classes. Must be a positive integer.
Note: This settings is not supported for the 'yolov5' algorithm.
string
boxScoreThreshold During inference, only return proposals with a classification score greater than
BoxScoreThreshold. Must be a float in the range[0, 1].
string
distributed Whether to use distributer training. string
earlyStopping Enable early stopping logic during training. string
earlyStoppingDelay Minimum number of epochs or validation evaluations to wait before primary metric improvement
is tracked for early stopping. Must be a positive integer.
string
earlyStoppingPatience Minimum number of epochs or validation evaluations with no primary metric improvement before
the run is stopped. Must be a positive integer.
string
enableOnnxNormalization Enable normalization when exporting ONNX model. string
evaluationFrequency Frequency to evaluate validation dataset to get metric scores. Must be a positive integer. string
gradientAccumulationStep Gradient accumulation means running a configured number of "GradAccumulationStep" steps without
updating the model weights while accumulating the gradients of those steps, and then using
the accumulated gradients to compute the weight updates. Must be a positive integer.
string
imageSize Image size for train and validation. Must be a positive integer.
Note: The training run may get into CUDA OOM if the size is too big.
Note: This settings is only supported for the 'yolov5' algorithm.
string
layersToFreeze Number of layers to freeze for the model. Must be a positive integer.
For instance, passing 2 as value for 'seresnext' means
freezing layer0 and layer1. For a full list of models supported and details on layer freeze, please
see: /azure/machine-learning/how-to-auto-train-image-models.
string
learningRate Initial learning rate. Must be a float in the range [0, 1]. string
learningRateScheduler Type of learning rate scheduler. Must be 'warmup_cosine' or 'step'. string
maxSize Maximum size of the image to be rescaled before feeding it to the backbone.
Must be a positive integer. Note: training run may get into CUDA OOM if the size is too big.
Note: This settings is not supported for the 'yolov5' algorithm.
string
minSize Minimum size of the image to be rescaled before feeding it to the backbone.
Must be a positive integer. Note: training run may get into CUDA OOM if the size is too big.
Note: This settings is not supported for the 'yolov5' algorithm.
string
modelName Name of the model to use for training.
For more information on the available models please visit the official documentation:
/azure/machine-learning/how-to-auto-train-image-models.
string
modelSize Model size. Must be 'small', 'medium', 'large', or 'xlarge'.
Note: training run may get into CUDA OOM if the model size is too big.
Note: This settings is only supported for the 'yolov5' algorithm.
string
momentum Value of momentum when optimizer is 'sgd'. Must be a float in the range [0, 1]. string
multiScale Enable multi-scale image by varying image size by +/- 50%.
Note: training run may get into CUDA OOM if no sufficient GPU memory.
Note: This settings is only supported for the 'yolov5' algorithm.
string
nesterov Enable nesterov when optimizer is 'sgd'. string
nmsIouThreshold IOU threshold used during inference in NMS post processing. Must be float in the range [0, 1]. string
numberOfEpochs Number of training epochs. Must be a positive integer. string
numberOfWorkers Number of data loader workers. Must be a non-negative integer. string
optimizer Type of optimizer. Must be either 'sgd', 'adam', or 'adamw'. string
randomSeed Random seed to be used when using deterministic training. string
stepLRGamma Value of gamma when learning rate scheduler is 'step'. Must be a float in the range [0, 1]. string
stepLRStepSize Value of step size when learning rate scheduler is 'step'. Must be a positive integer. string
tileGridSize The grid size to use for tiling each image. Note: TileGridSize must not be
None to enable small object detection logic. A string containing two integers in mxn format.
Note: This settings is not supported for the 'yolov5' algorithm.
string
tileOverlapRatio Overlap ratio between adjacent tiles in each dimension. Must be float in the range [0, 1).
Note: This settings is not supported for the 'yolov5' algorithm.
string
tilePredictionsNmsThreshold The IOU threshold to use to perform NMS while merging predictions from tiles and image.
Used in validation/ inference. Must be float in the range [0, 1].
Note: This settings is not supported for the 'yolov5' algorithm.
NMS: Non-maximum suppression
string
trainingBatchSize Training batch size. Must be a positive integer. string
validationBatchSize Validation batch size. Must be a positive integer. string
validationIouThreshold IOU threshold to use when computing validation metric. Must be float in the range [0, 1]. string
validationMetricType Metric computation method to use for validation metrics. Must be 'none', 'coco', 'voc', or 'coco_voc'. string
warmupCosineLRCycles Value of cosine cycle when learning rate scheduler is 'warmup_cosine'. Must be a float in the range [0, 1]. string
warmupCosineLRWarmupEpochs Value of warmup epochs when learning rate scheduler is 'warmup_cosine'. Must be a positive integer. string
weightDecay Value of weight decay when optimizer is 'sgd', 'adam', or 'adamw'. Must be a float in the range[0, 1]. string

ImageModelSettingsClassification

Name Description Value
advancedSettings Settings for advanced scenarios. string
amsGradient Enable AMSGrad when optimizer is 'adam' or 'adamw'. bool
augmentations Settings for using Augmentations. string
beta1 Value of 'beta1' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. int
beta2 Value of 'beta2' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. int
checkpointFrequency Frequency to store model checkpoints. Must be a positive integer. int
checkpointModel The pretrained checkpoint model for incremental training. MLFlowModelJobInput
checkpointRunId The id of a previous run that has a pretrained checkpoint for incremental training. string
distributed Whether to use distributed training. bool
earlyStopping Enable early stopping logic during training. bool
earlyStoppingDelay Minimum number of epochs or validation evaluations to wait before primary metric improvement
is tracked for early stopping. Must be a positive integer.
int
earlyStoppingPatience Minimum number of epochs or validation evaluations with no primary metric improvement before
the run is stopped. Must be a positive integer.
int
enableOnnxNormalization Enable normalization when exporting ONNX model. bool
evaluationFrequency Frequency to evaluate validation dataset to get metric scores. Must be a positive integer. int
gradientAccumulationStep Gradient accumulation means running a configured number of "GradAccumulationStep" steps without
updating the model weights while accumulating the gradients of those steps, and then using
the accumulated gradients to compute the weight updates. Must be a positive integer.
int
layersToFreeze Number of layers to freeze for the model. Must be a positive integer.
For instance, passing 2 as value for 'seresnext' means
freezing layer0 and layer1. For a full list of models supported and details on layer freeze, please
see: /azure/machine-learning/how-to-auto-train-image-models.
int
learningRate Initial learning rate. Must be a float in the range [0, 1]. int
learningRateScheduler Type of learning rate scheduler. Must be 'warmup_cosine' or 'step'. 'None'
'Step'
'WarmupCosine'
modelName Name of the model to use for training.
For more information on the available models please visit the official documentation:
/azure/machine-learning/how-to-auto-train-image-models.
string
momentum Value of momentum when optimizer is 'sgd'. Must be a float in the range [0, 1]. int
nesterov Enable nesterov when optimizer is 'sgd'. bool
numberOfEpochs Number of training epochs. Must be a positive integer. int
numberOfWorkers Number of data loader workers. Must be a non-negative integer. int
optimizer Type of optimizer. 'Adam'
'Adamw'
'None'
'Sgd'
randomSeed Random seed to be used when using deterministic training. int
stepLRGamma Value of gamma when learning rate scheduler is 'step'. Must be a float in the range [0, 1]. int
stepLRStepSize Value of step size when learning rate scheduler is 'step'. Must be a positive integer. int
trainingBatchSize Training batch size. Must be a positive integer. int
trainingCropSize Image crop size that is input to the neural network for the training dataset. Must be a positive integer. int
validationBatchSize Validation batch size. Must be a positive integer. int
validationCropSize Image crop size that is input to the neural network for the validation dataset. Must be a positive integer. int
validationResizeSize Image size to which to resize before cropping for validation dataset. Must be a positive integer. int
warmupCosineLRCycles Value of cosine cycle when learning rate scheduler is 'warmup_cosine'. Must be a float in the range [0, 1]. int
warmupCosineLRWarmupEpochs Value of warmup epochs when learning rate scheduler is 'warmup_cosine'. Must be a positive integer. int
weightDecay Value of weight decay when optimizer is 'sgd', 'adam', or 'adamw'. Must be a float in the range[0, 1]. int
weightedLoss Weighted loss. The accepted values are 0 for no weighted loss.
1 for weighted loss with sqrt.(class_weights). 2 for weighted loss with class_weights. Must be 0 or 1 or 2.
int

ImageModelSettingsObjectDetection

Name Description Value
advancedSettings Settings for advanced scenarios. string
amsGradient Enable AMSGrad when optimizer is 'adam' or 'adamw'. bool
augmentations Settings for using Augmentations. string
beta1 Value of 'beta1' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. int
beta2 Value of 'beta2' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. int
boxDetectionsPerImage Maximum number of detections per image, for all classes. Must be a positive integer.
Note: This settings is not supported for the 'yolov5' algorithm.
int
boxScoreThreshold During inference, only return proposals with a classification score greater than
BoxScoreThreshold. Must be a float in the range[0, 1].
int
checkpointFrequency Frequency to store model checkpoints. Must be a positive integer. int
checkpointModel The pretrained checkpoint model for incremental training. MLFlowModelJobInput
checkpointRunId The id of a previous run that has a pretrained checkpoint for incremental training. string
distributed Whether to use distributed training. bool
earlyStopping Enable early stopping logic during training. bool
earlyStoppingDelay Minimum number of epochs or validation evaluations to wait before primary metric improvement
is tracked for early stopping. Must be a positive integer.
int
earlyStoppingPatience Minimum number of epochs or validation evaluations with no primary metric improvement before
the run is stopped. Must be a positive integer.
int
enableOnnxNormalization Enable normalization when exporting ONNX model. bool
evaluationFrequency Frequency to evaluate validation dataset to get metric scores. Must be a positive integer. int
gradientAccumulationStep Gradient accumulation means running a configured number of "GradAccumulationStep" steps without
updating the model weights while accumulating the gradients of those steps, and then using
the accumulated gradients to compute the weight updates. Must be a positive integer.
int
imageSize Image size for train and validation. Must be a positive integer.
Note: The training run may get into CUDA OOM if the size is too big.
Note: This settings is only supported for the 'yolov5' algorithm.
int
layersToFreeze Number of layers to freeze for the model. Must be a positive integer.
For instance, passing 2 as value for 'seresnext' means
freezing layer0 and layer1. For a full list of models supported and details on layer freeze, please
see: /azure/machine-learning/how-to-auto-train-image-models.
int
learningRate Initial learning rate. Must be a float in the range [0, 1]. int
learningRateScheduler Type of learning rate scheduler. Must be 'warmup_cosine' or 'step'. 'None'
'Step'
'WarmupCosine'
maxSize Maximum size of the image to be rescaled before feeding it to the backbone.
Must be a positive integer. Note: training run may get into CUDA OOM if the size is too big.
Note: This settings is not supported for the 'yolov5' algorithm.
int
minSize Minimum size of the image to be rescaled before feeding it to the backbone.
Must be a positive integer. Note: training run may get into CUDA OOM if the size is too big.
Note: This settings is not supported for the 'yolov5' algorithm.
int
modelName Name of the model to use for training.
For more information on the available models please visit the official documentation:
/azure/machine-learning/how-to-auto-train-image-models.
string
modelSize Model size. Must be 'small', 'medium', 'large', or 'xlarge'.
Note: training run may get into CUDA OOM if the model size is too big.
Note: This settings is only supported for the 'yolov5' algorithm.
'ExtraLarge'
'Large'
'Medium'
'None'
'Small'
momentum Value of momentum when optimizer is 'sgd'. Must be a float in the range [0, 1]. int
multiScale Enable multi-scale image by varying image size by +/- 50%.
Note: training run may get into CUDA OOM if no sufficient GPU memory.
Note: This settings is only supported for the 'yolov5' algorithm.
bool
nesterov Enable nesterov when optimizer is 'sgd'. bool
nmsIouThreshold IOU threshold used during inference in NMS post processing. Must be a float in the range [0, 1]. int
numberOfEpochs Number of training epochs. Must be a positive integer. int
numberOfWorkers Number of data loader workers. Must be a non-negative integer. int
optimizer Type of optimizer. 'Adam'
'Adamw'
'None'
'Sgd'
randomSeed Random seed to be used when using deterministic training. int
stepLRGamma Value of gamma when learning rate scheduler is 'step'. Must be a float in the range [0, 1]. int
stepLRStepSize Value of step size when learning rate scheduler is 'step'. Must be a positive integer. int
tileGridSize The grid size to use for tiling each image. Note: TileGridSize must not be
None to enable small object detection logic. A string containing two integers in mxn format.
Note: This settings is not supported for the 'yolov5' algorithm.
string
tileOverlapRatio Overlap ratio between adjacent tiles in each dimension. Must be float in the range [0, 1).
Note: This settings is not supported for the 'yolov5' algorithm.
int
tilePredictionsNmsThreshold The IOU threshold to use to perform NMS while merging predictions from tiles and image.
Used in validation/ inference. Must be float in the range [0, 1].
Note: This settings is not supported for the 'yolov5' algorithm.
int
trainingBatchSize Training batch size. Must be a positive integer. int
validationBatchSize Validation batch size. Must be a positive integer. int
validationIouThreshold IOU threshold to use when computing validation metric. Must be float in the range [0, 1]. int
validationMetricType Metric computation method to use for validation metrics. 'Coco'
'CocoVoc'
'None'
'Voc'
warmupCosineLRCycles Value of cosine cycle when learning rate scheduler is 'warmup_cosine'. Must be a float in the range [0, 1]. int
warmupCosineLRWarmupEpochs Value of warmup epochs when learning rate scheduler is 'warmup_cosine'. Must be a positive integer. int
weightDecay Value of weight decay when optimizer is 'sgd', 'adam', or 'adamw'. Must be a float in the range[0, 1]. int

ImageObjectDetection

Name Description Value
limitSettings [Required] Limit settings for the AutoML job. ImageLimitSettings (required)
modelSettings Settings used for training the model. ImageModelSettingsObjectDetection
primaryMetric Primary metric to optimize for this task. 'MeanAveragePrecision'
searchSpace Search space for sampling different combinations of models and their hyperparameters. ImageModelDistributionSettingsObjectDetection[]
sweepSettings Model sweeping and hyperparameter sweeping related settings. ImageSweepSettings
taskType [Required] Task type for AutoMLJob. 'ImageObjectDetection' (required)
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int

ImageSweepSettings

Name Description Value
earlyTermination Type of early termination policy. EarlyTerminationPolicy
samplingAlgorithm [Required] Type of the hyperparameter sampling algorithms. 'Bayesian'
'Grid'
'Random' (required)

JobBaseProperties

Name Description Value
componentId ARM resource ID of the component resource. string
computeId ARM resource ID of the compute resource. string
description The asset description text. string
displayName Display name of job. string
experimentName The name of the experiment the job belongs to. If not set, the job is placed in the "Default" experiment. string
identity Identity configuration. If set, this should be one of AmlToken, ManagedIdentity, UserIdentity or null.
Defaults to AmlToken if null.
IdentityConfiguration
isArchived Is the asset archived? bool
jobType Set to 'AutoML' for type AutoMLJob. Set to 'Command' for type CommandJob. Set to 'Labeling' for type LabelingJobProperties. Set to 'Pipeline' for type PipelineJob. Set to 'Spark' for type SparkJob. Set to 'Sweep' for type SweepJob. 'AutoML'
'Command'
'Labeling'
'Pipeline'
'Spark'
'Sweep' (required)
properties The asset property dictionary. ResourceBaseProperties
services List of JobEndpoints.
For local jobs, a job endpoint will have an endpoint value of FileStreamObject.
JobBaseServices
tags Tag dictionary. Tags can be added, removed, and updated. ResourceBaseTags

JobBaseServices

Name Description Value

JobInput

Name Description Value
description Description for the input. string
jobInputType Set to 'custom_model' for type CustomModelJobInput. Set to 'literal' for type LiteralJobInput. Set to 'mlflow_model' for type MLFlowModelJobInput. Set to 'mltable' for type MLTableJobInput. Set to 'triton_model' for type TritonModelJobInput. Set to 'uri_file' for type UriFileJobInput. Set to 'uri_folder' for type UriFolderJobInput. 'custom_model'
'literal'
'mlflow_model'
'mltable'
'triton_model'
'uri_file'
'uri_folder' (required)

JobOutput

Name Description Value
description Description for the output. string
jobOutputType Set to 'custom_model' for type CustomModelJobOutput. Set to 'mlflow_model' for type MLFlowModelJobOutput. Set to 'mltable' for type MLTableJobOutput. Set to 'triton_model' for type TritonModelJobOutput. Set to 'uri_file' for type UriFileJobOutput. Set to 'uri_folder' for type UriFolderJobOutput. 'custom_model'
'mlflow_model'
'mltable'
'triton_model'
'uri_file'
'uri_folder' (required)

JobResourceConfiguration

Name Description Value
dockerArgs Extra arguments to pass to the Docker run command. This would override any parameters that have already been set by the system, or in this section. This parameter is only supported for Azure ML compute types. string
instanceCount Optional number of instances or nodes used by the compute target. int
instanceType Optional type of VM used as supported by the compute target. string
properties Additional properties bag. ResourceConfigurationProperties
shmSize Size of the docker container's shared memory block. This should be in the format of (number)(unit) where number as to be greater than 0 and the unit can be one of b(bytes), k(kilobytes), m(megabytes), or g(gigabytes). string

Constraints:
Pattern = \d+[bBkKmMgG]

JobScheduleAction

Name Description Value
actionType [Required] Specifies the action type of the schedule 'CreateJob' (required)
jobDefinition [Required] Defines Schedule action definition details. JobBaseProperties (required)

JobService

Name Description Value
endpoint Url for endpoint. string
jobServiceType Endpoint type. string
nodes Nodes that user would like to start the service on.
If Nodes is not set or set to null, the service will only be started on leader node.
Nodes
port Port for endpoint set by user. int
properties Additional properties to set on the endpoint. JobServiceProperties

JobServiceProperties

Name Description Value

LabelCategory

Name Description Value
classes Dictionary of label classes in this category. LabelCategoryClasses
displayName Display name of the label category. string
multiSelectEnabled Indicates whether it is allowed to select multiple classes in this category. bool

LabelCategoryClasses

Name Description Value

LabelClass

Name Description Value
displayName Display name of the label class. string
subclasses Dictionary of subclasses of the label class. LabelClassSubclasses

LabelClassSubclasses

Name Description Value

LabelingDataConfiguration

Name Description Value
dataId Resource Id of the data asset to perform labeling. string
incrementalDataRefreshEnabled Indicates whether to enable incremental data refresh. bool

LabelingJobImageProperties

Name Description Value
annotationType Annotation type of image labeling job. 'BoundingBox'
'Classification'
'InstanceSegmentation'
mediaType [Required] Media type of the job. 'Image' (required)

LabelingJobInstructions

Name Description Value
uri The link to a page with detailed labeling instructions for labelers. string

LabelingJobLabelCategories

Name Description Value

LabelingJobMediaProperties

Name Description Value
mediaType Set to 'Image' for type LabelingJobImageProperties. Set to 'Text' for type LabelingJobTextProperties. 'Image'
'Text' (required)

LabelingJobProperties

Name Description Value
dataConfiguration Configuration of data used in the job. LabelingDataConfiguration
jobInstructions Labeling instructions of the job. LabelingJobInstructions
jobType [Required] Specifies the type of job. 'Labeling' (required)
labelCategories Label categories of the job. LabelingJobLabelCategories
labelingJobMediaProperties Media type specific properties in the job. LabelingJobMediaProperties
mlAssistConfiguration Configuration of MLAssist feature in the job. MLAssistConfiguration

LabelingJobTextProperties

Name Description Value
annotationType Annotation type of text labeling job. 'Classification'
'NamedEntityRecognition'
mediaType [Required] Media type of the job. 'Text' (required)

LiteralJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'literal' (required)
value [Required] Literal value for the input. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

ManagedIdentity

Name Description Value
clientId Specifies a user-assigned identity by client ID. For system-assigned, do not set this field. string

Constraints:
Min length = 36
Max length = 36
Pattern = ^[0-9a-fA-F]{8}-([0-9a-fA-F]{4}-){3}[0-9a-fA-F]{12}$
identityType [Required] Specifies the type of identity framework. 'Managed' (required)
objectId Specifies a user-assigned identity by object ID. For system-assigned, do not set this field. string

Constraints:
Min length = 36
Max length = 36
Pattern = ^[0-9a-fA-F]{8}-([0-9a-fA-F]{4}-){3}[0-9a-fA-F]{12}$
resourceId Specifies a user-assigned identity by ARM resource ID. For system-assigned, do not set this field. string

MedianStoppingPolicy

Name Description Value
policyType [Required] Name of policy configuration 'MedianStopping' (required)

Microsoft.MachineLearningServices/workspaces/schedules

Name Description Value
apiVersion The api version '2022-10-01-preview'
name The resource name string

Constraints:
Pattern = ^[a-zA-Z0-9][a-zA-Z0-9\-_]{0,254}$ (required)
properties [Required] Additional attributes of the entity. ScheduleProperties (required)
type The resource type 'Microsoft.MachineLearningServices/workspaces/schedules'

MLAssistConfiguration

Name Description Value
mlAssist Set to 'Disabled' for type MLAssistConfigurationDisabled. Set to 'Enabled' for type MLAssistConfigurationEnabled. 'Disabled'
'Enabled' (required)

MLAssistConfigurationDisabled

Name Description Value
mlAssist [Required] Indicates whether MLAssist feature is enabled. 'Disabled' (required)

MLAssistConfigurationEnabled

Name Description Value
inferencingComputeBinding [Required] AML compute binding used in inferencing. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)
mlAssist [Required] Indicates whether MLAssist feature is enabled. 'Enabled' (required)
trainingComputeBinding [Required] AML compute binding used in training. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

MLFlowModelJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'mlflow_model' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

MLFlowModelJobInput

Name Description Value
description Description for the input. string
jobInputType [Required] Specifies the type of job. 'custom_model'
'literal'
'mlflow_model'
'mltable'
'triton_model'
'uri_file'
'uri_folder' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

MLFlowModelJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'mlflow_model' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

MLTableJobInput

Name Description Value
description Description for the input. string
jobInputType [Required] Specifies the type of job. 'custom_model'
'literal'
'mlflow_model'
'mltable'
'triton_model'
'uri_file'
'uri_folder' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

MLTableJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'mltable' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

MLTableJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'mltable' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

Mpi

Name Description Value
distributionType [Required] Specifies the type of distribution framework. 'Mpi' (required)
processCountPerInstance Number of processes per MPI node. int

NCrossValidations

Name Description Value
mode Set to 'Auto' for type AutoNCrossValidations. Set to 'Custom' for type CustomNCrossValidations. 'Auto'
'Custom' (required)

NlpFixedParameters

Name Description Value
gradientAccumulationSteps Number of steps to accumulate gradients over before running a backward pass. int
learningRate The learning rate for the training procedure. int
learningRateScheduler The type of learning rate schedule to use during the training procedure. 'Constant'
'ConstantWithWarmup'
'Cosine'
'CosineWithRestarts'
'Linear'
'None'
'Polynomial'
modelName The name of the model to train. string
numberOfEpochs Number of training epochs. int
trainingBatchSize The batch size for the training procedure. int
validationBatchSize The batch size to be used during evaluation. int
warmupRatio The warmup ratio, used alongside LrSchedulerType. int
weightDecay The weight decay for the training procedure. int

NlpParameterSubspace

Name Description Value
gradientAccumulationSteps Number of steps to accumulate gradients over before running a backward pass. string
learningRate The learning rate for the training procedure. string
learningRateScheduler The type of learning rate schedule to use during the training procedure. string
modelName The name of the model to train. string
numberOfEpochs Number of training epochs. string
trainingBatchSize The batch size for the training procedure. string
validationBatchSize The batch size to be used during evaluation. string
warmupRatio The warmup ratio, used alongside LrSchedulerType. string
weightDecay The weight decay for the training procedure. string

NlpSweepSettings

Name Description Value
earlyTermination Type of early termination policy for the sweeping job. EarlyTerminationPolicy
samplingAlgorithm [Required] Type of sampling algorithm. 'Bayesian'
'Grid'
'Random' (required)

NlpVerticalFeaturizationSettings

Name Description Value
datasetLanguage Dataset language, useful for the text data. string

NlpVerticalLimitSettings

Name Description Value
maxConcurrentTrials Maximum Concurrent AutoML iterations. int
maxNodes Maximum nodes to leverage for training in any single trial. Controls multi-node distributed training. int
maxTrials Number of AutoML iterations. int
timeout AutoML job timeout. string
trialTimeout Timeout for individual HD trials. string

Nodes

Name Description Value
nodesValueType Set to 'All' for type AllNodes. 'All' (required)

Objective

Name Description Value
goal [Required] Defines supported metric goals for hyperparameter tuning 'Maximize'
'Minimize' (required)
primaryMetric [Required] Name of the metric to optimize. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

PipelineJob

Name Description Value
inputs Inputs for the pipeline job. PipelineJobInputs
jobs Jobs construct the Pipeline Job. PipelineJobJobs
jobType [Required] Specifies the type of job. 'Pipeline' (required)
outputs Outputs for the pipeline job PipelineJobOutputs
settings Pipeline settings, for things like ContinueRunOnStepFailure etc. any
sourceJobId ARM resource ID of source job. string

PipelineJobInputs

Name Description Value

PipelineJobJobs

Name Description Value

PipelineJobOutputs

Name Description Value

PyTorch

Name Description Value
distributionType [Required] Specifies the type of distribution framework. 'PyTorch' (required)
processCountPerInstance Number of processes per node. int

RandomSamplingAlgorithm

Name Description Value
rule The specific type of random algorithm 'Random'
'Sobol'
samplingAlgorithmType [Required] The algorithm used for generating hyperparameter values, along with configuration properties 'Random' (required)
seed An optional integer to use as the seed for random number generation int

RecurrenceSchedule

Name Description Value
hours [Required] List of hours for the schedule. int[] (required)
minutes [Required] List of minutes for the schedule. int[] (required)
monthDays List of month days for the schedule int[]
weekDays List of days for the schedule. String array containing any of:
'Friday'
'Monday'
'Saturday'
'Sunday'
'Thursday'
'Tuesday'
'Wednesday'

RecurrenceTrigger

Name Description Value
frequency [Required] The frequency to trigger schedule. 'Day'
'Hour'
'Minute'
'Month'
'Week' (required)
interval [Required] Specifies schedule interval in conjunction with frequency int (required)
schedule The recurrence schedule. RecurrenceSchedule
triggerType [Required] 'Recurrence' (required)

Regression

Name Description Value
cvSplitColumnNames Columns to use for CVSplit data. string[]
featurizationSettings Featurization inputs needed for AutoML job. TableVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. TableFixedParameters
limitSettings Execution constraints for AutoMLJob. TableVerticalLimitSettings
nCrossValidations Number of cross validation folds to be applied on training dataset
when validation dataset is not provided.
NCrossValidations
primaryMetric Primary metric for regression task. 'NormalizedMeanAbsoluteError'
'NormalizedRootMeanSquaredError'
'R2Score'
'SpearmanCorrelation'
searchSpace Search space for sampling different combinations of models and their hyperparameters. TableParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. TableSweepSettings
taskType [Required] Task type for AutoMLJob. 'Regression' (required)
testData Test data input. MLTableJobInput
testDataSize The fraction of test dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
trainingSettings Inputs for training phase for an AutoML Job. RegressionTrainingSettings
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
weightColumnName The name of the sample weight column. Automated ML supports a weighted column as an input, causing rows in the data to be weighted up or down. string

RegressionTrainingSettings

Name Description Value
allowedTrainingAlgorithms Allowed models for regression task. String array containing any of:
'DecisionTree'
'ElasticNet'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LassoLars'
'LightGBM'
'RandomForest'
'SGD'
'XGBoostRegressor'
blockedTrainingAlgorithms Blocked models for regression task. String array containing any of:
'DecisionTree'
'ElasticNet'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LassoLars'
'LightGBM'
'RandomForest'
'SGD'
'XGBoostRegressor'
enableDnnTraining Enable recommendation of DNN models. bool
enableModelExplainability Flag to turn on explainability on best model. bool
enableOnnxCompatibleModels Flag for enabling onnx compatible models. bool
enableStackEnsemble Enable stack ensemble run. bool
enableVoteEnsemble Enable voting ensemble run. bool
ensembleModelDownloadTimeout During VotingEnsemble and StackEnsemble model generation, multiple fitted models from the previous child runs are downloaded.
Configure this parameter with a higher value than 300 secs, if more time is needed.
string
stackEnsembleSettings Stack ensemble settings for stack ensemble run. StackEnsembleSettings

ResourceBaseProperties

Name Description Value

ResourceBaseProperties

Name Description Value

ResourceBaseTags

Name Description Value

ResourceBaseTags

Name Description Value

ResourceConfigurationProperties

Name Description Value

SamplingAlgorithm

Name Description Value
samplingAlgorithmType Set to 'Bayesian' for type BayesianSamplingAlgorithm. Set to 'Grid' for type GridSamplingAlgorithm. Set to 'Random' for type RandomSamplingAlgorithm. 'Bayesian'
'Grid'
'Random' (required)

ScheduleActionBase

Name Description Value
actionType Set to 'CreateJob' for type JobScheduleAction. Set to 'InvokeBatchEndpoint' for type EndpointScheduleAction. 'CreateJob'
'InvokeBatchEndpoint' (required)

ScheduleProperties

Name Description Value
action [Required] Specifies the action of the schedule ScheduleActionBase (required)
description The asset description text. string
displayName Display name of schedule. string
isEnabled Is the schedule enabled? bool
properties The asset property dictionary. ResourceBaseProperties
tags Tag dictionary. Tags can be added, removed, and updated. ResourceBaseTags
trigger [Required] Specifies the trigger details TriggerBase (required)

Seasonality

Name Description Value
mode Set to 'Auto' for type AutoSeasonality. Set to 'Custom' for type CustomSeasonality. 'Auto'
'Custom' (required)

SparkJob

Name Description Value
archives Archive files used in the job. string[]
args Arguments for the job. string
codeId [Required] ARM resource ID of the code asset. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)
conf Spark configured properties. SparkJobConf
entry [Required] The entry to execute on startup of the job. SparkJobEntry (required)
environmentId The ARM resource ID of the Environment specification for the job. string
files Files used in the job. string[]
inputs Mapping of input data bindings used in the job. SparkJobInputs
jars Jar files used in the job. string[]
jobType [Required] Specifies the type of job. 'Spark' (required)
outputs Mapping of output data bindings used in the job. SparkJobOutputs
pyFiles Python files used in the job. string[]
resources Compute Resource configuration for the job. SparkResourceConfiguration

SparkJobConf

Name Description Value

SparkJobEntry

Name Description Value
sparkJobEntryType Set to 'SparkJobPythonEntry' for type SparkJobPythonEntry. Set to 'SparkJobScalaEntry' for type SparkJobScalaEntry. 'SparkJobPythonEntry'
'SparkJobScalaEntry' (required)

SparkJobInputs

Name Description Value

SparkJobOutputs

Name Description Value

SparkJobPythonEntry

Name Description Value
file [Required] Relative python file path for job entry point. string

Constraints:
Min length = 1
Pattern = [a-zA-Z0-9_] (required)
sparkJobEntryType [Required] Type of the job's entry point. 'SparkJobPythonEntry' (required)

SparkJobScalaEntry

Name Description Value
className [Required] Scala class name used as entry point. string

Constraints:
Min length = 1
Pattern = [a-zA-Z0-9_] (required)
sparkJobEntryType [Required] Type of the job's entry point. 'SparkJobScalaEntry' (required)

SparkResourceConfiguration

Name Description Value
instanceType Optional type of VM used as supported by the compute target. string
runtimeVersion Version of spark runtime used for the job. string

StackEnsembleSettings

Name Description Value
stackMetaLearnerKWargs Optional parameters to pass to the initializer of the meta-learner. any
stackMetaLearnerTrainPercentage Specifies the proportion of the training set (when choosing train and validation type of training) to be reserved for training the meta-learner. Default value is 0.2. int
stackMetaLearnerType The meta-learner is a model trained on the output of the individual heterogeneous models. 'ElasticNet'
'ElasticNetCV'
'LightGBMClassifier'
'LightGBMRegressor'
'LinearRegression'
'LogisticRegression'
'LogisticRegressionCV'
'None'

SweepJob

Name Description Value
earlyTermination Early termination policies enable canceling poor-performing runs before they complete EarlyTerminationPolicy
inputs Mapping of input data bindings used in the job. SweepJobInputs
jobType [Required] Specifies the type of job. 'Sweep' (required)
limits Sweep Job limit. SweepJobLimits
objective [Required] Optimization objective. Objective (required)
outputs Mapping of output data bindings used in the job. SweepJobOutputs
samplingAlgorithm [Required] The hyperparameter sampling algorithm SamplingAlgorithm (required)
searchSpace [Required] A dictionary containing each parameter and its distribution. The dictionary key is the name of the parameter any (required)
trial [Required] Trial component definition. TrialComponent (required)

SweepJobInputs

Name Description Value

SweepJobLimits

Name Description Value
jobLimitsType [Required] JobLimit type. 'Command'
'Sweep' (required)
maxConcurrentTrials Sweep Job max concurrent trials. int
maxTotalTrials Sweep Job max total trials. int
timeout The max run duration in ISO 8601 format, after which the job will be cancelled. Only supports duration with precision as low as Seconds. string
trialTimeout Sweep Job Trial timeout value. string

SweepJobOutputs

Name Description Value

TableFixedParameters

Name Description Value
booster Specify the boosting type, e.g gbdt for XGBoost. string
boostingType Specify the boosting type, e.g gbdt for LightGBM. string
growPolicy Specify the grow policy, which controls the way new nodes are added to the tree. string
learningRate The learning rate for the training procedure. int
maxBin Specify the Maximum number of discrete bins to bucket continuous features . int
maxDepth Specify the max depth to limit the tree depth explicitly. int
maxLeaves Specify the max leaves to limit the tree leaves explicitly. int
minDataInLeaf The minimum number of data per leaf. int
minSplitGain Minimum loss reduction required to make a further partition on a leaf node of the tree. int
modelName The name of the model to train. string
nEstimators Specify the number of trees (or rounds) in an model. int
numLeaves Specify the number of leaves. int
preprocessorName The name of the preprocessor to use. string
regAlpha L1 regularization term on weights. int
regLambda L2 regularization term on weights. int
subsample Subsample ratio of the training instance. int
subsampleFreq Frequency of subsample. int
treeMethod Specify the tree method. string
withMean If true, center before scaling the data with StandardScalar. bool
withStd If true, scaling the data with Unit Variance with StandardScalar. bool

TableParameterSubspace

Name Description Value
booster Specify the boosting type, e.g gbdt for XGBoost. string
boostingType Specify the boosting type, e.g gbdt for LightGBM. string
growPolicy Specify the grow policy, which controls the way new nodes are added to the tree. string
learningRate The learning rate for the training procedure. string
maxBin Specify the Maximum number of discrete bins to bucket continuous features . string
maxDepth Specify the max depth to limit the tree depth explicitly. string
maxLeaves Specify the max leaves to limit the tree leaves explicitly. string
minDataInLeaf The minimum number of data per leaf. string
minSplitGain Minimum loss reduction required to make a further partition on a leaf node of the tree. string
modelName The name of the model to train. string
nEstimators Specify the number of trees (or rounds) in an model. string
numLeaves Specify the number of leaves. string
preprocessorName The name of the preprocessor to use. string
regAlpha L1 regularization term on weights. string
regLambda L2 regularization term on weights. string
subsample Subsample ratio of the training instance. string
subsampleFreq Frequency of subsample string
treeMethod Specify the tree method. string
withMean If true, center before scaling the data with StandardScalar. string
withStd If true, scaling the data with Unit Variance with StandardScalar. string

TableSweepSettings

Name Description Value
earlyTermination Type of early termination policy for the sweeping job. EarlyTerminationPolicy
samplingAlgorithm [Required] Type of sampling algorithm. 'Bayesian'
'Grid'
'Random' (required)

TableVerticalFeaturizationSettings

Name Description Value
blockedTransformers These transformers shall not be used in featurization. String array containing any of:
'CatTargetEncoder'
'CountVectorizer'
'HashOneHotEncoder'
'LabelEncoder'
'NaiveBayes'
'OneHotEncoder'
'TextTargetEncoder'
'TfIdf'
'WoETargetEncoder'
'WordEmbedding'
columnNameAndTypes Dictionary of column name and its type (int, float, string, datetime etc). TableVerticalFeaturizationSettingsColumnNameAndTypes
datasetLanguage Dataset language, useful for the text data. string
enableDnnFeaturization Determines whether to use Dnn based featurizers for data featurization. bool
mode Featurization mode - User can keep the default 'Auto' mode and AutoML will take care of necessary transformation of the data in featurization phase.
If 'Off' is selected then no featurization is done.
If 'Custom' is selected then user can specify additional inputs to customize how featurization is done.
'Auto'
'Custom'
'Off'
transformerParams User can specify additional transformers to be used along with the columns to which it would be applied and parameters for the transformer constructor. TableVerticalFeaturizationSettingsTransformerParams

TableVerticalFeaturizationSettingsColumnNameAndTypes

Name Description Value

TableVerticalFeaturizationSettingsTransformerParams

Name Description Value

TableVerticalLimitSettings

Name Description Value
enableEarlyTermination Enable early termination, determines whether or not if AutoMLJob will terminate early if there is no score improvement in last 20 iterations. bool
exitScore Exit score for the AutoML job. int
maxConcurrentTrials Maximum Concurrent iterations. int
maxCoresPerTrial Max cores per iteration. int
maxTrials Number of iterations. int
sweepConcurrentTrials Number of concurrent sweeping runs that user wants to trigger. int
sweepTrials Number of sweeping runs that user wants to trigger. int
timeout AutoML job timeout. string
trialTimeout Iteration timeout. string

TargetLags

Name Description Value
mode Set to 'Auto' for type AutoTargetLags. Set to 'Custom' for type CustomTargetLags. 'Auto'
'Custom' (required)

TargetRollingWindowSize

Name Description Value
mode Set to 'Auto' for type AutoTargetRollingWindowSize. Set to 'Custom' for type CustomTargetRollingWindowSize. 'Auto'
'Custom' (required)

TensorFlow

Name Description Value
distributionType [Required] Specifies the type of distribution framework. 'TensorFlow' (required)
parameterServerCount Number of parameter server tasks. int
workerCount Number of workers. If not specified, will default to the instance count. int

TextClassification

Name Description Value
featurizationSettings Featurization inputs needed for AutoML job. NlpVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. NlpFixedParameters
limitSettings Execution constraints for AutoMLJob. NlpVerticalLimitSettings
primaryMetric Primary metric for Text-Classification task. 'Accuracy'
'AUCWeighted'
'AveragePrecisionScoreWeighted'
'NormMacroRecall'
'PrecisionScoreWeighted'
searchSpace Search space for sampling different combinations of models and their hyperparameters. NlpParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. NlpSweepSettings
taskType [Required] Task type for AutoMLJob. 'TextClassification' (required)
validationData Validation data inputs. MLTableJobInput

TextClassificationMultilabel

Name Description Value
featurizationSettings Featurization inputs needed for AutoML job. NlpVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. NlpFixedParameters
limitSettings Execution constraints for AutoMLJob. NlpVerticalLimitSettings
searchSpace Search space for sampling different combinations of models and their hyperparameters. NlpParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. NlpSweepSettings
taskType [Required] Task type for AutoMLJob. 'TextClassificationMultilabel' (required)
validationData Validation data inputs. MLTableJobInput

TextNer

Name Description Value
featurizationSettings Featurization inputs needed for AutoML job. NlpVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. NlpFixedParameters
limitSettings Execution constraints for AutoMLJob. NlpVerticalLimitSettings
searchSpace Search space for sampling different combinations of models and their hyperparameters. NlpParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. NlpSweepSettings
taskType [Required] Task type for AutoMLJob. 'TextNER' (required)
validationData Validation data inputs. MLTableJobInput

TrialComponent

Name Description Value
codeId ARM resource ID of the code asset. string
command [Required] The command to execute on startup of the job. eg. "python train.py" string

Constraints:
Min length = 1
Pattern = [a-zA-Z0-9_] (required)
distribution Distribution configuration of the job. If set, this should be one of Mpi, Tensorflow, PyTorch, or null. DistributionConfiguration
environmentId [Required] The ARM resource ID of the Environment specification for the job. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)
environmentVariables Environment variables included in the job. TrialComponentEnvironmentVariables
resources Compute Resource configuration for the job. JobResourceConfiguration

TrialComponentEnvironmentVariables

Name Description Value

TriggerBase

Name Description Value
endTime Specifies end time of schedule in ISO 8601, but without a UTC offset. Refer https://en.wikipedia.org/wiki/ISO_8601.
Recommented format would be "2022-06-01T00:00:01"
If not present, the schedule will run indefinitely
string
startTime Specifies start time of schedule in ISO 8601 format, but without a UTC offset. string
timeZone Specifies time zone in which the schedule runs.
TimeZone should follow Windows time zone format. Refer: /windows-hardware/manufacture/desktop/default-time-zones?view=windows-11
string
triggerType Set to 'Cron' for type CronTrigger. Set to 'Recurrence' for type RecurrenceTrigger. 'Cron'
'Recurrence' (required)

TritonModelJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'triton_model' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

TritonModelJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'triton_model' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

TruncationSelectionPolicy

Name Description Value
policyType [Required] Name of policy configuration 'TruncationSelection' (required)
truncationPercentage The percentage of runs to cancel at each evaluation interval. int

UriFileJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'uri_file' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

UriFileJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'uri_file' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

UriFolderJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'uri_folder' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

UriFolderJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'uri_folder' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

UserIdentity

Name Description Value
identityType [Required] Specifies the type of identity framework. 'UserIdentity' (required)

Terraform (AzAPI provider) resource definition

The workspaces/schedules resource type can be deployed with operations that target:

  • Resource groups

For a list of changed properties in each API version, see change log.

Resource format

To create a Microsoft.MachineLearningServices/workspaces/schedules resource, add the following Terraform to your template.

resource "azapi_resource" "symbolicname" {
  type = "Microsoft.MachineLearningServices/workspaces/schedules@2022-10-01-preview"
  name = "string"
  body = jsonencode({
    properties = {
      action = {
        actionType = "string"
        // For remaining properties, see ScheduleActionBase objects
      }
      description = "string"
      displayName = "string"
      isEnabled = bool
      properties = {
        {customized property} = "string"
      }
      tags = {
        {customized property} = "string"
      }
      trigger = {
        endTime = "string"
        startTime = "string"
        timeZone = "string"
        triggerType = "string"
        // For remaining properties, see TriggerBase objects
      }
    }
  })
}

Nodes objects

Set the nodesValueType property to specify the type of object.

For All, use:

{
  nodesValueType = "All"
}

DistributionConfiguration objects

Set the distributionType property to specify the type of object.

For Mpi, use:

{
  distributionType = "Mpi"
  processCountPerInstance = int
}

For PyTorch, use:

{
  distributionType = "PyTorch"
  processCountPerInstance = int
}

For TensorFlow, use:

{
  distributionType = "TensorFlow"
  parameterServerCount = int
  workerCount = int
}

JobBaseProperties objects

Set the jobType property to specify the type of object.

For AutoML, use:

{
  environmentId = "string"
  environmentVariables = {
    {customized property} = "string"
  }
  jobType = "AutoML"
  outputs = {
    {customized property} = {
      description = "string"
      jobOutputType = "string"
      // For remaining properties, see JobOutput objects
    }
  }
  resources = {
    dockerArgs = "string"
    instanceCount = int
    instanceType = "string"
    properties = {
      {customized property} = ?
    }
    shmSize = "string"
  }
  taskDetails = {
    logVerbosity = "string"
    targetColumnName = "string"
    trainingData = {
      description = "string"
      jobInputType = "string"
      mode = "string"
      uri = "string"
    }
    taskType = "string"
    // For remaining properties, see AutoMLVertical objects
  }
}

For Command, use:

{
  autologgerSettings = {
    mlflowAutologger = "string"
  }
  codeId = "string"
  command = "string"
  distribution = {
    distributionType = "string"
    // For remaining properties, see DistributionConfiguration objects
  }
  environmentId = "string"
  environmentVariables = {
    {customized property} = "string"
  }
  inputs = {
    {customized property} = {
      description = "string"
      jobInputType = "string"
      // For remaining properties, see JobInput objects
    }
  }
  jobType = "Command"
  limits = {
    jobLimitsType = "string"
    timeout = "string"
  }
  outputs = {
    {customized property} = {
      description = "string"
      jobOutputType = "string"
      // For remaining properties, see JobOutput objects
    }
  }
  resources = {
    dockerArgs = "string"
    instanceCount = int
    instanceType = "string"
    properties = {
      {customized property} = ?
    }
    shmSize = "string"
  }
}

For Labeling, use:

{
  dataConfiguration = {
    dataId = "string"
    incrementalDataRefreshEnabled = bool
  }
  jobInstructions = {
    uri = "string"
  }
  jobType = "Labeling"
  labelCategories = {
    {customized property} = {
      classes = {
        {customized property} = {
          displayName = "string"
          subclasses = {
            {customized property} = ...
          }
        }
      }
      displayName = "string"
      multiSelectEnabled = bool
    }
  }
  labelingJobMediaProperties = {
    mediaType = "string"
    // For remaining properties, see LabelingJobMediaProperties objects
  }
  mlAssistConfiguration = {
    mlAssist = "string"
    // For remaining properties, see MLAssistConfiguration objects
  }
}

For Pipeline, use:

{
  inputs = {
    {customized property} = {
      description = "string"
      jobInputType = "string"
      // For remaining properties, see JobInput objects
    }
  }
  jobs = {
    {customized property} = ?
  }
  jobType = "Pipeline"
  outputs = {
    {customized property} = {
      description = "string"
      jobOutputType = "string"
      // For remaining properties, see JobOutput objects
    }
  }
  settings = ?
  sourceJobId = "string"
}

For Spark, use:

{
  archives = [
    "string"
  ]
  args = "string"
  codeId = "string"
  conf = {
    {customized property} = "string"
  }
  entry = {
    sparkJobEntryType = "string"
    // For remaining properties, see SparkJobEntry objects
  }
  environmentId = "string"
  files = [
    "string"
  ]
  inputs = {
    {customized property} = {
      description = "string"
      jobInputType = "string"
      // For remaining properties, see JobInput objects
    }
  }
  jars = [
    "string"
  ]
  jobType = "Spark"
  outputs = {
    {customized property} = {
      description = "string"
      jobOutputType = "string"
      // For remaining properties, see JobOutput objects
    }
  }
  pyFiles = [
    "string"
  ]
  resources = {
    instanceType = "string"
    runtimeVersion = "string"
  }
}

For Sweep, use:

{
  earlyTermination = {
    delayEvaluation = int
    evaluationInterval = int
    policyType = "string"
    // For remaining properties, see EarlyTerminationPolicy objects
  }
  inputs = {
    {customized property} = {
      description = "string"
      jobInputType = "string"
      // For remaining properties, see JobInput objects
    }
  }
  jobType = "Sweep"
  limits = {
    jobLimitsType = "string"
    maxConcurrentTrials = int
    maxTotalTrials = int
    timeout = "string"
    trialTimeout = "string"
  }
  objective = {
    goal = "string"
    primaryMetric = "string"
  }
  outputs = {
    {customized property} = {
      description = "string"
      jobOutputType = "string"
      // For remaining properties, see JobOutput objects
    }
  }
  samplingAlgorithm = {
    samplingAlgorithmType = "string"
    // For remaining properties, see SamplingAlgorithm objects
  }
  searchSpace = ?
  trial = {
    codeId = "string"
    command = "string"
    distribution = {
      distributionType = "string"
      // For remaining properties, see DistributionConfiguration objects
    }
    environmentId = "string"
    environmentVariables = {
      {customized property} = "string"
    }
    resources = {
      dockerArgs = "string"
      instanceCount = int
      instanceType = "string"
      properties = {
        {customized property} = ?
      }
      shmSize = "string"
    }
  }
}

ScheduleActionBase objects

Set the actionType property to specify the type of object.

For CreateJob, use:

{
  actionType = "CreateJob"
  jobDefinition = {
    componentId = "string"
    computeId = "string"
    description = "string"
    displayName = "string"
    experimentName = "string"
    identity = {
      identityType = "string"
      // For remaining properties, see IdentityConfiguration objects
    }
    isArchived = bool
    properties = {
      {customized property} = "string"
    }
    services = {
      {customized property} = {
        endpoint = "string"
        jobServiceType = "string"
        nodes = {
          nodesValueType = "string"
          // For remaining properties, see Nodes objects
        }
        port = int
        properties = {
          {customized property} = "string"
        }
      }
    }
    tags = {
      {customized property} = "string"
    }
    jobType = "string"
    // For remaining properties, see JobBaseProperties objects
  }
}

For InvokeBatchEndpoint, use:

{
  actionType = "InvokeBatchEndpoint"
  endpointInvocationDefinition = ?
}

SparkJobEntry objects

Set the sparkJobEntryType property to specify the type of object.

For SparkJobPythonEntry, use:

{
  file = "string"
  sparkJobEntryType = "SparkJobPythonEntry"
}

For SparkJobScalaEntry, use:

{
  className = "string"
  sparkJobEntryType = "SparkJobScalaEntry"
}

TargetLags objects

Set the mode property to specify the type of object.

For Auto, use:

{
  mode = "Auto"
}

For Custom, use:

{
  mode = "Custom"
  values = [
    int
  ]
}

LabelingJobMediaProperties objects

Set the mediaType property to specify the type of object.

For Image, use:

{
  annotationType = "string"
  mediaType = "Image"
}

For Text, use:

{
  annotationType = "string"
  mediaType = "Text"
}

EarlyTerminationPolicy objects

Set the policyType property to specify the type of object.

For Bandit, use:

{
  policyType = "Bandit"
  slackAmount = int
  slackFactor = int
}

For MedianStopping, use:

{
  policyType = "MedianStopping"
}

For TruncationSelection, use:

{
  policyType = "TruncationSelection"
  truncationPercentage = int
}

IdentityConfiguration objects

Set the identityType property to specify the type of object.

For AMLToken, use:

{
  identityType = "AMLToken"
}

For Managed, use:

{
  clientId = "string"
  identityType = "Managed"
  objectId = "string"
  resourceId = "string"
}

For UserIdentity, use:

{
  identityType = "UserIdentity"
}

MLAssistConfiguration objects

Set the mlAssist property to specify the type of object.

For Disabled, use:

{
  mlAssist = "Disabled"
}

For Enabled, use:

{
  inferencingComputeBinding = "string"
  mlAssist = "Enabled"
  trainingComputeBinding = "string"
}

JobInput objects

Set the jobInputType property to specify the type of object.

For custom_model, use:

{
  jobInputType = "custom_model"
  mode = "string"
  uri = "string"
}

For literal, use:

{
  jobInputType = "literal"
  value = "string"
}

For mlflow_model, use:

{
  jobInputType = "mlflow_model"
  mode = "string"
  uri = "string"
}

For mltable, use:

{
  jobInputType = "mltable"
  mode = "string"
  uri = "string"
}

For triton_model, use:

{
  jobInputType = "triton_model"
  mode = "string"
  uri = "string"
}

For uri_file, use:

{
  jobInputType = "uri_file"
  mode = "string"
  uri = "string"
}

For uri_folder, use:

{
  jobInputType = "uri_folder"
  mode = "string"
  uri = "string"
}

ForecastHorizon objects

Set the mode property to specify the type of object.

For Auto, use:

{
  mode = "Auto"
}

For Custom, use:

{
  mode = "Custom"
  value = int
}

NCrossValidations objects

Set the mode property to specify the type of object.

For Auto, use:

{
  mode = "Auto"
}

For Custom, use:

{
  mode = "Custom"
  value = int
}

SamplingAlgorithm objects

Set the samplingAlgorithmType property to specify the type of object.

For Bayesian, use:

{
  samplingAlgorithmType = "Bayesian"
}

For Grid, use:

{
  samplingAlgorithmType = "Grid"
}

For Random, use:

{
  rule = "string"
  samplingAlgorithmType = "Random"
  seed = int
}

TriggerBase objects

Set the triggerType property to specify the type of object.

For Cron, use:

{
  expression = "string"
  triggerType = "Cron"
}

For Recurrence, use:

{
  frequency = "string"
  interval = int
  schedule = {
    hours = [
      int
    ]
    minutes = [
      int
    ]
    monthDays = [
      int
    ]
    weekDays = [
      "string"
    ]
  }
  triggerType = "Recurrence"
}

TargetRollingWindowSize objects

Set the mode property to specify the type of object.

For Auto, use:

{
  mode = "Auto"
}

For Custom, use:

{
  mode = "Custom"
  value = int
}

JobOutput objects

Set the jobOutputType property to specify the type of object.

For custom_model, use:

{
  jobOutputType = "custom_model"
  mode = "string"
  uri = "string"
}

For mlflow_model, use:

{
  jobOutputType = "mlflow_model"
  mode = "string"
  uri = "string"
}

For mltable, use:

{
  jobOutputType = "mltable"
  mode = "string"
  uri = "string"
}

For triton_model, use:

{
  jobOutputType = "triton_model"
  mode = "string"
  uri = "string"
}

For uri_file, use:

{
  jobOutputType = "uri_file"
  mode = "string"
  uri = "string"
}

For uri_folder, use:

{
  jobOutputType = "uri_folder"
  mode = "string"
  uri = "string"
}

AutoMLVertical objects

Set the taskType property to specify the type of object.

For Classification, use:

{
  cvSplitColumnNames = [
    "string"
  ]
  featurizationSettings = {
    blockedTransformers = [
      "string"
    ]
    columnNameAndTypes = {
      {customized property} = "string"
    }
    datasetLanguage = "string"
    enableDnnFeaturization = bool
    mode = "string"
    transformerParams = {
      {customized property} = [
        {
          fields = [
            "string"
          ]
          parameters = ?
        }
      ]
    }
  }
  fixedParameters = {
    booster = "string"
    boostingType = "string"
    growPolicy = "string"
    learningRate = int
    maxBin = int
    maxDepth = int
    maxLeaves = int
    minDataInLeaf = int
    minSplitGain = int
    modelName = "string"
    nEstimators = int
    numLeaves = int
    preprocessorName = "string"
    regAlpha = int
    regLambda = int
    subsample = int
    subsampleFreq = int
    treeMethod = "string"
    withMean = bool
    withStd = bool
  }
  limitSettings = {
    enableEarlyTermination = bool
    exitScore = int
    maxConcurrentTrials = int
    maxCoresPerTrial = int
    maxTrials = int
    sweepConcurrentTrials = int
    sweepTrials = int
    timeout = "string"
    trialTimeout = "string"
  }
  nCrossValidations = {
    mode = "string"
    // For remaining properties, see NCrossValidations objects
  }
  positiveLabel = "string"
  primaryMetric = "string"
  searchSpace = [
    {
      booster = "string"
      boostingType = "string"
      growPolicy = "string"
      learningRate = "string"
      maxBin = "string"
      maxDepth = "string"
      maxLeaves = "string"
      minDataInLeaf = "string"
      minSplitGain = "string"
      modelName = "string"
      nEstimators = "string"
      numLeaves = "string"
      preprocessorName = "string"
      regAlpha = "string"
      regLambda = "string"
      subsample = "string"
      subsampleFreq = "string"
      treeMethod = "string"
      withMean = "string"
      withStd = "string"
    }
  ]
  sweepSettings = {
    earlyTermination = {
      delayEvaluation = int
      evaluationInterval = int
      policyType = "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm = "string"
  }
  taskType = "Classification"
  testData = {
    description = "string"
    jobInputType = "string"
    mode = "string"
    uri = "string"
  }
  testDataSize = int
  trainingSettings = {
    allowedTrainingAlgorithms = [
      "string"
    ]
    blockedTrainingAlgorithms = [
      "string"
    ]
    enableDnnTraining = bool
    enableModelExplainability = bool
    enableOnnxCompatibleModels = bool
    enableStackEnsemble = bool
    enableVoteEnsemble = bool
    ensembleModelDownloadTimeout = "string"
    stackEnsembleSettings = {
      stackMetaLearnerKWargs = ?
      stackMetaLearnerTrainPercentage = int
      stackMetaLearnerType = "string"
    }
  }
  validationData = {
    description = "string"
    jobInputType = "string"
    mode = "string"
    uri = "string"
  }
  validationDataSize = int
  weightColumnName = "string"
}

For Forecasting, use:

{
  cvSplitColumnNames = [
    "string"
  ]
  featurizationSettings = {
    blockedTransformers = [
      "string"
    ]
    columnNameAndTypes = {
      {customized property} = "string"
    }
    datasetLanguage = "string"
    enableDnnFeaturization = bool
    mode = "string"
    transformerParams = {
      {customized property} = [
        {
          fields = [
            "string"
          ]
          parameters = ?
        }
      ]
    }
  }
  fixedParameters = {
    booster = "string"
    boostingType = "string"
    growPolicy = "string"
    learningRate = int
    maxBin = int
    maxDepth = int
    maxLeaves = int
    minDataInLeaf = int
    minSplitGain = int
    modelName = "string"
    nEstimators = int
    numLeaves = int
    preprocessorName = "string"
    regAlpha = int
    regLambda = int
    subsample = int
    subsampleFreq = int
    treeMethod = "string"
    withMean = bool
    withStd = bool
  }
  forecastingSettings = {
    countryOrRegionForHolidays = "string"
    cvStepSize = int
    featureLags = "string"
    forecastHorizon = {
      mode = "string"
      // For remaining properties, see ForecastHorizon objects
    }
    frequency = "string"
    seasonality = {
      mode = "string"
      // For remaining properties, see Seasonality objects
    }
    shortSeriesHandlingConfig = "string"
    targetAggregateFunction = "string"
    targetLags = {
      mode = "string"
      // For remaining properties, see TargetLags objects
    }
    targetRollingWindowSize = {
      mode = "string"
      // For remaining properties, see TargetRollingWindowSize objects
    }
    timeColumnName = "string"
    timeSeriesIdColumnNames = [
      "string"
    ]
    useStl = "string"
  }
  limitSettings = {
    enableEarlyTermination = bool
    exitScore = int
    maxConcurrentTrials = int
    maxCoresPerTrial = int
    maxTrials = int
    sweepConcurrentTrials = int
    sweepTrials = int
    timeout = "string"
    trialTimeout = "string"
  }
  nCrossValidations = {
    mode = "string"
    // For remaining properties, see NCrossValidations objects
  }
  primaryMetric = "string"
  searchSpace = [
    {
      booster = "string"
      boostingType = "string"
      growPolicy = "string"
      learningRate = "string"
      maxBin = "string"
      maxDepth = "string"
      maxLeaves = "string"
      minDataInLeaf = "string"
      minSplitGain = "string"
      modelName = "string"
      nEstimators = "string"
      numLeaves = "string"
      preprocessorName = "string"
      regAlpha = "string"
      regLambda = "string"
      subsample = "string"
      subsampleFreq = "string"
      treeMethod = "string"
      withMean = "string"
      withStd = "string"
    }
  ]
  sweepSettings = {
    earlyTermination = {
      delayEvaluation = int
      evaluationInterval = int
      policyType = "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm = "string"
  }
  taskType = "Forecasting"
  testData = {
    description = "string"
    jobInputType = "string"
    mode = "string"
    uri = "string"
  }
  testDataSize = int
  trainingSettings = {
    allowedTrainingAlgorithms = [
      "string"
    ]
    blockedTrainingAlgorithms = [
      "string"
    ]
    enableDnnTraining = bool
    enableModelExplainability = bool
    enableOnnxCompatibleModels = bool
    enableStackEnsemble = bool
    enableVoteEnsemble = bool
    ensembleModelDownloadTimeout = "string"
    stackEnsembleSettings = {
      stackMetaLearnerKWargs = ?
      stackMetaLearnerTrainPercentage = int
      stackMetaLearnerType = "string"
    }
  }
  validationData = {
    description = "string"
    jobInputType = "string"
    mode = "string"
    uri = "string"
  }
  validationDataSize = int
  weightColumnName = "string"
}

For ImageClassification, use:

{
  limitSettings = {
    maxConcurrentTrials = int
    maxTrials = int
    timeout = "string"
  }
  modelSettings = {
    advancedSettings = "string"
    amsGradient = bool
    augmentations = "string"
    beta1 = int
    beta2 = int
    checkpointFrequency = int
    checkpointModel = {
      description = "string"
      jobInputType = "string"
      mode = "string"
      uri = "string"
    }
    checkpointRunId = "string"
    distributed = bool
    earlyStopping = bool
    earlyStoppingDelay = int
    earlyStoppingPatience = int
    enableOnnxNormalization = bool
    evaluationFrequency = int
    gradientAccumulationStep = int
    layersToFreeze = int
    learningRate = int
    learningRateScheduler = "string"
    modelName = "string"
    momentum = int
    nesterov = bool
    numberOfEpochs = int
    numberOfWorkers = int
    optimizer = "string"
    randomSeed = int
    stepLRGamma = int
    stepLRStepSize = int
    trainingBatchSize = int
    trainingCropSize = int
    validationBatchSize = int
    validationCropSize = int
    validationResizeSize = int
    warmupCosineLRCycles = int
    warmupCosineLRWarmupEpochs = int
    weightDecay = int
    weightedLoss = int
  }
  primaryMetric = "string"
  searchSpace = [
    {
      amsGradient = "string"
      augmentations = "string"
      beta1 = "string"
      beta2 = "string"
      distributed = "string"
      earlyStopping = "string"
      earlyStoppingDelay = "string"
      earlyStoppingPatience = "string"
      enableOnnxNormalization = "string"
      evaluationFrequency = "string"
      gradientAccumulationStep = "string"
      layersToFreeze = "string"
      learningRate = "string"
      learningRateScheduler = "string"
      modelName = "string"
      momentum = "string"
      nesterov = "string"
      numberOfEpochs = "string"
      numberOfWorkers = "string"
      optimizer = "string"
      randomSeed = "string"
      stepLRGamma = "string"
      stepLRStepSize = "string"
      trainingBatchSize = "string"
      trainingCropSize = "string"
      validationBatchSize = "string"
      validationCropSize = "string"
      validationResizeSize = "string"
      warmupCosineLRCycles = "string"
      warmupCosineLRWarmupEpochs = "string"
      weightDecay = "string"
      weightedLoss = "string"
    }
  ]
  sweepSettings = {
    earlyTermination = {
      delayEvaluation = int
      evaluationInterval = int
      policyType = "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm = "string"
  }
  taskType = "ImageClassification"
  validationData = {
    description = "string"
    jobInputType = "string"
    mode = "string"
    uri = "string"
  }
  validationDataSize = int
}

For ImageClassificationMultilabel, use:

{
  limitSettings = {
    maxConcurrentTrials = int
    maxTrials = int
    timeout = "string"
  }
  modelSettings = {
    advancedSettings = "string"
    amsGradient = bool
    augmentations = "string"
    beta1 = int
    beta2 = int
    checkpointFrequency = int
    checkpointModel = {
      description = "string"
      jobInputType = "string"
      mode = "string"
      uri = "string"
    }
    checkpointRunId = "string"
    distributed = bool
    earlyStopping = bool
    earlyStoppingDelay = int
    earlyStoppingPatience = int
    enableOnnxNormalization = bool
    evaluationFrequency = int
    gradientAccumulationStep = int
    layersToFreeze = int
    learningRate = int
    learningRateScheduler = "string"
    modelName = "string"
    momentum = int
    nesterov = bool
    numberOfEpochs = int
    numberOfWorkers = int
    optimizer = "string"
    randomSeed = int
    stepLRGamma = int
    stepLRStepSize = int
    trainingBatchSize = int
    trainingCropSize = int
    validationBatchSize = int
    validationCropSize = int
    validationResizeSize = int
    warmupCosineLRCycles = int
    warmupCosineLRWarmupEpochs = int
    weightDecay = int
    weightedLoss = int
  }
  primaryMetric = "string"
  searchSpace = [
    {
      amsGradient = "string"
      augmentations = "string"
      beta1 = "string"
      beta2 = "string"
      distributed = "string"
      earlyStopping = "string"
      earlyStoppingDelay = "string"
      earlyStoppingPatience = "string"
      enableOnnxNormalization = "string"
      evaluationFrequency = "string"
      gradientAccumulationStep = "string"
      layersToFreeze = "string"
      learningRate = "string"
      learningRateScheduler = "string"
      modelName = "string"
      momentum = "string"
      nesterov = "string"
      numberOfEpochs = "string"
      numberOfWorkers = "string"
      optimizer = "string"
      randomSeed = "string"
      stepLRGamma = "string"
      stepLRStepSize = "string"
      trainingBatchSize = "string"
      trainingCropSize = "string"
      validationBatchSize = "string"
      validationCropSize = "string"
      validationResizeSize = "string"
      warmupCosineLRCycles = "string"
      warmupCosineLRWarmupEpochs = "string"
      weightDecay = "string"
      weightedLoss = "string"
    }
  ]
  sweepSettings = {
    earlyTermination = {
      delayEvaluation = int
      evaluationInterval = int
      policyType = "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm = "string"
  }
  taskType = "ImageClassificationMultilabel"
  validationData = {
    description = "string"
    jobInputType = "string"
    mode = "string"
    uri = "string"
  }
  validationDataSize = int
}

For ImageInstanceSegmentation, use:

{
  limitSettings = {
    maxConcurrentTrials = int
    maxTrials = int
    timeout = "string"
  }
  modelSettings = {
    advancedSettings = "string"
    amsGradient = bool
    augmentations = "string"
    beta1 = int
    beta2 = int
    boxDetectionsPerImage = int
    boxScoreThreshold = int
    checkpointFrequency = int
    checkpointModel = {
      description = "string"
      jobInputType = "string"
      mode = "string"
      uri = "string"
    }
    checkpointRunId = "string"
    distributed = bool
    earlyStopping = bool
    earlyStoppingDelay = int
    earlyStoppingPatience = int
    enableOnnxNormalization = bool
    evaluationFrequency = int
    gradientAccumulationStep = int
    imageSize = int
    layersToFreeze = int
    learningRate = int
    learningRateScheduler = "string"
    maxSize = int
    minSize = int
    modelName = "string"
    modelSize = "string"
    momentum = int
    multiScale = bool
    nesterov = bool
    nmsIouThreshold = int
    numberOfEpochs = int
    numberOfWorkers = int
    optimizer = "string"
    randomSeed = int
    stepLRGamma = int
    stepLRStepSize = int
    tileGridSize = "string"
    tileOverlapRatio = int
    tilePredictionsNmsThreshold = int
    trainingBatchSize = int
    validationBatchSize = int
    validationIouThreshold = int
    validationMetricType = "string"
    warmupCosineLRCycles = int
    warmupCosineLRWarmupEpochs = int
    weightDecay = int
  }
  primaryMetric = "string"
  searchSpace = [
    {
      amsGradient = "string"
      augmentations = "string"
      beta1 = "string"
      beta2 = "string"
      boxDetectionsPerImage = "string"
      boxScoreThreshold = "string"
      distributed = "string"
      earlyStopping = "string"
      earlyStoppingDelay = "string"
      earlyStoppingPatience = "string"
      enableOnnxNormalization = "string"
      evaluationFrequency = "string"
      gradientAccumulationStep = "string"
      imageSize = "string"
      layersToFreeze = "string"
      learningRate = "string"
      learningRateScheduler = "string"
      maxSize = "string"
      minSize = "string"
      modelName = "string"
      modelSize = "string"
      momentum = "string"
      multiScale = "string"
      nesterov = "string"
      nmsIouThreshold = "string"
      numberOfEpochs = "string"
      numberOfWorkers = "string"
      optimizer = "string"
      randomSeed = "string"
      stepLRGamma = "string"
      stepLRStepSize = "string"
      tileGridSize = "string"
      tileOverlapRatio = "string"
      tilePredictionsNmsThreshold = "string"
      trainingBatchSize = "string"
      validationBatchSize = "string"
      validationIouThreshold = "string"
      validationMetricType = "string"
      warmupCosineLRCycles = "string"
      warmupCosineLRWarmupEpochs = "string"
      weightDecay = "string"
    }
  ]
  sweepSettings = {
    earlyTermination = {
      delayEvaluation = int
      evaluationInterval = int
      policyType = "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm = "string"
  }
  taskType = "ImageInstanceSegmentation"
  validationData = {
    description = "string"
    jobInputType = "string"
    mode = "string"
    uri = "string"
  }
  validationDataSize = int
}

For ImageObjectDetection, use:

{
  limitSettings = {
    maxConcurrentTrials = int
    maxTrials = int
    timeout = "string"
  }
  modelSettings = {
    advancedSettings = "string"
    amsGradient = bool
    augmentations = "string"
    beta1 = int
    beta2 = int
    boxDetectionsPerImage = int
    boxScoreThreshold = int
    checkpointFrequency = int
    checkpointModel = {
      description = "string"
      jobInputType = "string"
      mode = "string"
      uri = "string"
    }
    checkpointRunId = "string"
    distributed = bool
    earlyStopping = bool
    earlyStoppingDelay = int
    earlyStoppingPatience = int
    enableOnnxNormalization = bool
    evaluationFrequency = int
    gradientAccumulationStep = int
    imageSize = int
    layersToFreeze = int
    learningRate = int
    learningRateScheduler = "string"
    maxSize = int
    minSize = int
    modelName = "string"
    modelSize = "string"
    momentum = int
    multiScale = bool
    nesterov = bool
    nmsIouThreshold = int
    numberOfEpochs = int
    numberOfWorkers = int
    optimizer = "string"
    randomSeed = int
    stepLRGamma = int
    stepLRStepSize = int
    tileGridSize = "string"
    tileOverlapRatio = int
    tilePredictionsNmsThreshold = int
    trainingBatchSize = int
    validationBatchSize = int
    validationIouThreshold = int
    validationMetricType = "string"
    warmupCosineLRCycles = int
    warmupCosineLRWarmupEpochs = int
    weightDecay = int
  }
  primaryMetric = "string"
  searchSpace = [
    {
      amsGradient = "string"
      augmentations = "string"
      beta1 = "string"
      beta2 = "string"
      boxDetectionsPerImage = "string"
      boxScoreThreshold = "string"
      distributed = "string"
      earlyStopping = "string"
      earlyStoppingDelay = "string"
      earlyStoppingPatience = "string"
      enableOnnxNormalization = "string"
      evaluationFrequency = "string"
      gradientAccumulationStep = "string"
      imageSize = "string"
      layersToFreeze = "string"
      learningRate = "string"
      learningRateScheduler = "string"
      maxSize = "string"
      minSize = "string"
      modelName = "string"
      modelSize = "string"
      momentum = "string"
      multiScale = "string"
      nesterov = "string"
      nmsIouThreshold = "string"
      numberOfEpochs = "string"
      numberOfWorkers = "string"
      optimizer = "string"
      randomSeed = "string"
      stepLRGamma = "string"
      stepLRStepSize = "string"
      tileGridSize = "string"
      tileOverlapRatio = "string"
      tilePredictionsNmsThreshold = "string"
      trainingBatchSize = "string"
      validationBatchSize = "string"
      validationIouThreshold = "string"
      validationMetricType = "string"
      warmupCosineLRCycles = "string"
      warmupCosineLRWarmupEpochs = "string"
      weightDecay = "string"
    }
  ]
  sweepSettings = {
    earlyTermination = {
      delayEvaluation = int
      evaluationInterval = int
      policyType = "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm = "string"
  }
  taskType = "ImageObjectDetection"
  validationData = {
    description = "string"
    jobInputType = "string"
    mode = "string"
    uri = "string"
  }
  validationDataSize = int
}

For Regression, use:

{
  cvSplitColumnNames = [
    "string"
  ]
  featurizationSettings = {
    blockedTransformers = [
      "string"
    ]
    columnNameAndTypes = {
      {customized property} = "string"
    }
    datasetLanguage = "string"
    enableDnnFeaturization = bool
    mode = "string"
    transformerParams = {
      {customized property} = [
        {
          fields = [
            "string"
          ]
          parameters = ?
        }
      ]
    }
  }
  fixedParameters = {
    booster = "string"
    boostingType = "string"
    growPolicy = "string"
    learningRate = int
    maxBin = int
    maxDepth = int
    maxLeaves = int
    minDataInLeaf = int
    minSplitGain = int
    modelName = "string"
    nEstimators = int
    numLeaves = int
    preprocessorName = "string"
    regAlpha = int
    regLambda = int
    subsample = int
    subsampleFreq = int
    treeMethod = "string"
    withMean = bool
    withStd = bool
  }
  limitSettings = {
    enableEarlyTermination = bool
    exitScore = int
    maxConcurrentTrials = int
    maxCoresPerTrial = int
    maxTrials = int
    sweepConcurrentTrials = int
    sweepTrials = int
    timeout = "string"
    trialTimeout = "string"
  }
  nCrossValidations = {
    mode = "string"
    // For remaining properties, see NCrossValidations objects
  }
  primaryMetric = "string"
  searchSpace = [
    {
      booster = "string"
      boostingType = "string"
      growPolicy = "string"
      learningRate = "string"
      maxBin = "string"
      maxDepth = "string"
      maxLeaves = "string"
      minDataInLeaf = "string"
      minSplitGain = "string"
      modelName = "string"
      nEstimators = "string"
      numLeaves = "string"
      preprocessorName = "string"
      regAlpha = "string"
      regLambda = "string"
      subsample = "string"
      subsampleFreq = "string"
      treeMethod = "string"
      withMean = "string"
      withStd = "string"
    }
  ]
  sweepSettings = {
    earlyTermination = {
      delayEvaluation = int
      evaluationInterval = int
      policyType = "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm = "string"
  }
  taskType = "Regression"
  testData = {
    description = "string"
    jobInputType = "string"
    mode = "string"
    uri = "string"
  }
  testDataSize = int
  trainingSettings = {
    allowedTrainingAlgorithms = [
      "string"
    ]
    blockedTrainingAlgorithms = [
      "string"
    ]
    enableDnnTraining = bool
    enableModelExplainability = bool
    enableOnnxCompatibleModels = bool
    enableStackEnsemble = bool
    enableVoteEnsemble = bool
    ensembleModelDownloadTimeout = "string"
    stackEnsembleSettings = {
      stackMetaLearnerKWargs = ?
      stackMetaLearnerTrainPercentage = int
      stackMetaLearnerType = "string"
    }
  }
  validationData = {
    description = "string"
    jobInputType = "string"
    mode = "string"
    uri = "string"
  }
  validationDataSize = int
  weightColumnName = "string"
}

For TextClassification, use:

{
  featurizationSettings = {
    datasetLanguage = "string"
  }
  fixedParameters = {
    gradientAccumulationSteps = int
    learningRate = int
    learningRateScheduler = "string"
    modelName = "string"
    numberOfEpochs = int
    trainingBatchSize = int
    validationBatchSize = int
    warmupRatio = int
    weightDecay = int
  }
  limitSettings = {
    maxConcurrentTrials = int
    maxNodes = int
    maxTrials = int
    timeout = "string"
    trialTimeout = "string"
  }
  primaryMetric = "string"
  searchSpace = [
    {
      gradientAccumulationSteps = "string"
      learningRate = "string"
      learningRateScheduler = "string"
      modelName = "string"
      numberOfEpochs = "string"
      trainingBatchSize = "string"
      validationBatchSize = "string"
      warmupRatio = "string"
      weightDecay = "string"
    }
  ]
  sweepSettings = {
    earlyTermination = {
      delayEvaluation = int
      evaluationInterval = int
      policyType = "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm = "string"
  }
  taskType = "TextClassification"
  validationData = {
    description = "string"
    jobInputType = "string"
    mode = "string"
    uri = "string"
  }
}

For TextClassificationMultilabel, use:

{
  featurizationSettings = {
    datasetLanguage = "string"
  }
  fixedParameters = {
    gradientAccumulationSteps = int
    learningRate = int
    learningRateScheduler = "string"
    modelName = "string"
    numberOfEpochs = int
    trainingBatchSize = int
    validationBatchSize = int
    warmupRatio = int
    weightDecay = int
  }
  limitSettings = {
    maxConcurrentTrials = int
    maxNodes = int
    maxTrials = int
    timeout = "string"
    trialTimeout = "string"
  }
  searchSpace = [
    {
      gradientAccumulationSteps = "string"
      learningRate = "string"
      learningRateScheduler = "string"
      modelName = "string"
      numberOfEpochs = "string"
      trainingBatchSize = "string"
      validationBatchSize = "string"
      warmupRatio = "string"
      weightDecay = "string"
    }
  ]
  sweepSettings = {
    earlyTermination = {
      delayEvaluation = int
      evaluationInterval = int
      policyType = "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm = "string"
  }
  taskType = "TextClassificationMultilabel"
  validationData = {
    description = "string"
    jobInputType = "string"
    mode = "string"
    uri = "string"
  }
}

For TextNER, use:

{
  featurizationSettings = {
    datasetLanguage = "string"
  }
  fixedParameters = {
    gradientAccumulationSteps = int
    learningRate = int
    learningRateScheduler = "string"
    modelName = "string"
    numberOfEpochs = int
    trainingBatchSize = int
    validationBatchSize = int
    warmupRatio = int
    weightDecay = int
  }
  limitSettings = {
    maxConcurrentTrials = int
    maxNodes = int
    maxTrials = int
    timeout = "string"
    trialTimeout = "string"
  }
  searchSpace = [
    {
      gradientAccumulationSteps = "string"
      learningRate = "string"
      learningRateScheduler = "string"
      modelName = "string"
      numberOfEpochs = "string"
      trainingBatchSize = "string"
      validationBatchSize = "string"
      warmupRatio = "string"
      weightDecay = "string"
    }
  ]
  sweepSettings = {
    earlyTermination = {
      delayEvaluation = int
      evaluationInterval = int
      policyType = "string"
      // For remaining properties, see EarlyTerminationPolicy objects
    }
    samplingAlgorithm = "string"
  }
  taskType = "TextNER"
  validationData = {
    description = "string"
    jobInputType = "string"
    mode = "string"
    uri = "string"
  }
}

Seasonality objects

Set the mode property to specify the type of object.

For Auto, use:

{
  mode = "Auto"
}

For Custom, use:

{
  mode = "Custom"
  value = int
}

Property values

AllNodes

Name Description Value
nodesValueType [Required] Type of the Nodes value 'All' (required)

AmlToken

Name Description Value
identityType [Required] Specifies the type of identity framework. 'AMLToken' (required)

AutoForecastHorizon

Name Description Value
mode [Required] Set forecast horizon value selection mode. 'Auto' (required)

AutologgerSettings

Name Description Value
mlflowAutologger [Required] Indicates whether mlflow autologger is enabled. 'Disabled'
'Enabled' (required)

AutoMLJob

Name Description Value
environmentId The ARM resource ID of the Environment specification for the job.
This is optional value to provide, if not provided, AutoML will default this to Production AutoML curated environment version when running the job.
string
environmentVariables Environment variables included in the job. AutoMLJobEnvironmentVariables
jobType [Required] Specifies the type of job. 'AutoML' (required)
outputs Mapping of output data bindings used in the job. AutoMLJobOutputs
resources Compute Resource configuration for the job. JobResourceConfiguration
taskDetails [Required] This represents scenario which can be one of Tables/NLP/Image AutoMLVertical (required)

AutoMLJobEnvironmentVariables

Name Description Value

AutoMLJobOutputs

Name Description Value

AutoMLVertical

Name Description Value
logVerbosity Log verbosity for the job. 'Critical'
'Debug'
'Error'
'Info'
'NotSet'
'Warning'
targetColumnName Target column name: This is prediction values column.
Also known as label column name in context of classification tasks.
string
taskType Set to 'Classification' for type Classification. Set to 'Forecasting' for type Forecasting. Set to 'ImageClassification' for type ImageClassification. Set to 'ImageClassificationMultilabel' for type ImageClassificationMultilabel. Set to 'ImageInstanceSegmentation' for type ImageInstanceSegmentation. Set to 'ImageObjectDetection' for type ImageObjectDetection. Set to 'Regression' for type Regression. Set to 'TextClassification' for type TextClassification. Set to 'TextClassificationMultilabel' for type TextClassificationMultilabel. Set to 'TextNER' for type TextNer. 'Classification'
'Forecasting'
'ImageClassification'
'ImageClassificationMultilabel'
'ImageInstanceSegmentation'
'ImageObjectDetection'
'Regression'
'TextClassification'
'TextClassificationMultilabel'
'TextNER' (required)
trainingData [Required] Training data input. MLTableJobInput (required)

AutoNCrossValidations

Name Description Value
mode [Required] Mode for determining N-Cross validations. 'Auto' (required)

AutoSeasonality

Name Description Value
mode [Required] Seasonality mode. 'Auto' (required)

AutoTargetLags

Name Description Value
mode [Required] Set target lags mode - Auto/Custom 'Auto' (required)

AutoTargetRollingWindowSize

Name Description Value
mode [Required] TargetRollingWindowSiz detection mode. 'Auto' (required)

BanditPolicy

Name Description Value
policyType [Required] Name of policy configuration 'Bandit' (required)
slackAmount Absolute distance allowed from the best performing run. int
slackFactor Ratio of the allowed distance from the best performing run. int

BayesianSamplingAlgorithm

Name Description Value
samplingAlgorithmType [Required] The algorithm used for generating hyperparameter values, along with configuration properties 'Bayesian' (required)

Classification

Name Description Value
cvSplitColumnNames Columns to use for CVSplit data. string[]
featurizationSettings Featurization inputs needed for AutoML job. TableVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. TableFixedParameters
limitSettings Execution constraints for AutoMLJob. TableVerticalLimitSettings
nCrossValidations Number of cross validation folds to be applied on training dataset
when validation dataset is not provided.
NCrossValidations
positiveLabel Positive label for binary metrics calculation. string
primaryMetric Primary metric for the task. 'Accuracy'
'AUCWeighted'
'AveragePrecisionScoreWeighted'
'NormMacroRecall'
'PrecisionScoreWeighted'
searchSpace Search space for sampling different combinations of models and their hyperparameters. TableParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. TableSweepSettings
taskType [Required] Task type for AutoMLJob. 'Classification' (required)
testData Test data input. MLTableJobInput
testDataSize The fraction of test dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
trainingSettings Inputs for training phase for an AutoML Job. ClassificationTrainingSettings
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
weightColumnName The name of the sample weight column. Automated ML supports a weighted column as an input, causing rows in the data to be weighted up or down. string

ClassificationTrainingSettings

Name Description Value
allowedTrainingAlgorithms Allowed models for classification task. String array containing any of:
'BernoulliNaiveBayes'
'DecisionTree'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LightGBM'
'LinearSVM'
'LogisticRegression'
'MultinomialNaiveBayes'
'RandomForest'
'SGD'
'SVM'
'XGBoostClassifier'
blockedTrainingAlgorithms Blocked models for classification task. String array containing any of:
'BernoulliNaiveBayes'
'DecisionTree'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LightGBM'
'LinearSVM'
'LogisticRegression'
'MultinomialNaiveBayes'
'RandomForest'
'SGD'
'SVM'
'XGBoostClassifier'
enableDnnTraining Enable recommendation of DNN models. bool
enableModelExplainability Flag to turn on explainability on best model. bool
enableOnnxCompatibleModels Flag for enabling onnx compatible models. bool
enableStackEnsemble Enable stack ensemble run. bool
enableVoteEnsemble Enable voting ensemble run. bool
ensembleModelDownloadTimeout During VotingEnsemble and StackEnsemble model generation, multiple fitted models from the previous child runs are downloaded.
Configure this parameter with a higher value than 300 secs, if more time is needed.
string
stackEnsembleSettings Stack ensemble settings for stack ensemble run. StackEnsembleSettings

ColumnTransformer

Name Description Value
fields Fields to apply transformer logic on. string[]
parameters Different properties to be passed to transformer.
Input expected is dictionary of key,value pairs in JSON format.
any

CommandJob

Name Description Value
autologgerSettings Distribution configuration of the job. If set, this should be one of Mpi, Tensorflow, PyTorch, or null. AutologgerSettings
codeId ARM resource ID of the code asset. string
command [Required] The command to execute on startup of the job. eg. "python train.py" string

Constraints:
Min length = 1
Pattern = [a-zA-Z0-9_] (required)
distribution Distribution configuration of the job. If set, this should be one of Mpi, Tensorflow, PyTorch, or null. DistributionConfiguration
environmentId [Required] The ARM resource ID of the Environment specification for the job. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)
environmentVariables Environment variables included in the job. CommandJobEnvironmentVariables
inputs Mapping of input data bindings used in the job. CommandJobInputs
jobType [Required] Specifies the type of job. 'Command' (required)
limits Command Job limit. CommandJobLimits
outputs Mapping of output data bindings used in the job. CommandJobOutputs
resources Compute Resource configuration for the job. JobResourceConfiguration

CommandJobEnvironmentVariables

Name Description Value

CommandJobInputs

Name Description Value

CommandJobLimits

Name Description Value
jobLimitsType [Required] JobLimit type. 'Command'
'Sweep' (required)
timeout The max run duration in ISO 8601 format, after which the job will be cancelled. Only supports duration with precision as low as Seconds. string

CommandJobOutputs

Name Description Value

CronTrigger

Name Description Value
expression [Required] Specifies cron expression of schedule.
The expression should follow NCronTab format.
string

Constraints:
Pattern = [a-zA-Z0-9_] (required)
triggerType [Required] 'Cron' (required)

CustomForecastHorizon

Name Description Value
mode [Required] Set forecast horizon value selection mode. 'Custom' (required)
value [Required] Forecast horizon value. int (required)

CustomModelJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'custom_model' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

CustomModelJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'custom_model' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

CustomNCrossValidations

Name Description Value
mode [Required] Mode for determining N-Cross validations. 'Custom' (required)
value [Required] N-Cross validations value. int (required)

CustomSeasonality

Name Description Value
mode [Required] Seasonality mode. 'Custom' (required)
value [Required] Seasonality value. int (required)

CustomTargetLags

Name Description Value
mode [Required] Set target lags mode - Auto/Custom 'Custom' (required)
values [Required] Set target lags values. int[] (required)

CustomTargetRollingWindowSize

Name Description Value
mode [Required] TargetRollingWindowSiz detection mode. 'Custom' (required)
value [Required] TargetRollingWindowSize value. int (required)

DistributionConfiguration

Name Description Value
distributionType Set to 'Mpi' for type Mpi. Set to 'PyTorch' for type PyTorch. Set to 'TensorFlow' for type TensorFlow. 'Mpi'
'PyTorch'
'TensorFlow' (required)

EarlyTerminationPolicy

Name Description Value
delayEvaluation Number of intervals by which to delay the first evaluation. int
evaluationInterval Interval (number of runs) between policy evaluations. int
policyType Set to 'Bandit' for type BanditPolicy. Set to 'MedianStopping' for type MedianStoppingPolicy. Set to 'TruncationSelection' for type TruncationSelectionPolicy. 'Bandit'
'MedianStopping'
'TruncationSelection' (required)

EndpointScheduleAction

Name Description Value
actionType [Required] Specifies the action type of the schedule 'InvokeBatchEndpoint' (required)
endpointInvocationDefinition [Required] Defines Schedule action definition details.
<see href="TBD" />
any (required)

ForecastHorizon

Name Description Value
mode Set to 'Auto' for type AutoForecastHorizon. Set to 'Custom' for type CustomForecastHorizon. 'Auto'
'Custom' (required)

Forecasting

Name Description Value
cvSplitColumnNames Columns to use for CVSplit data. string[]
featurizationSettings Featurization inputs needed for AutoML job. TableVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. TableFixedParameters
forecastingSettings Forecasting task specific inputs. ForecastingSettings
limitSettings Execution constraints for AutoMLJob. TableVerticalLimitSettings
nCrossValidations Number of cross validation folds to be applied on training dataset
when validation dataset is not provided.
NCrossValidations
primaryMetric Primary metric for forecasting task. 'NormalizedMeanAbsoluteError'
'NormalizedRootMeanSquaredError'
'R2Score'
'SpearmanCorrelation'
searchSpace Search space for sampling different combinations of models and their hyperparameters. TableParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. TableSweepSettings
taskType [Required] Task type for AutoMLJob. 'Forecasting' (required)
testData Test data input. MLTableJobInput
testDataSize The fraction of test dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
trainingSettings Inputs for training phase for an AutoML Job. ForecastingTrainingSettings
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
weightColumnName The name of the sample weight column. Automated ML supports a weighted column as an input, causing rows in the data to be weighted up or down. string

ForecastingSettings

Name Description Value
countryOrRegionForHolidays Country or region for holidays for forecasting tasks.
These should be ISO 3166 two-letter country/region codes, for example 'US' or 'GB'.
string
cvStepSize Number of periods between the origin time of one CV fold and the next fold. For
example, if CVStepSize = 3 for daily data, the origin time for each fold will be
three days apart.
int
featureLags Flag for generating lags for the numeric features with 'auto' or null. 'Auto'
'None'
forecastHorizon The desired maximum forecast horizon in units of time-series frequency. ForecastHorizon
frequency When forecasting, this parameter represents the period with which the forecast is desired, for example daily, weekly, yearly, etc. The forecast frequency is dataset frequency by default. string
seasonality Set time series seasonality as an integer multiple of the series frequency.
If seasonality is set to 'auto', it will be inferred.
Seasonality
shortSeriesHandlingConfig The parameter defining how if AutoML should handle short time series. 'Auto'
'Drop'
'None'
'Pad'
targetAggregateFunction The function to be used to aggregate the time series target column to conform to a user specified frequency.
If the TargetAggregateFunction is set i.e. not 'None', but the freq parameter is not set, the error is raised. The possible target aggregation functions are: "sum", "max", "min" and "mean".
'Max'
'Mean'
'Min'
'None'
'Sum'
targetLags The number of past periods to lag from the target column. TargetLags
targetRollingWindowSize The number of past periods used to create a rolling window average of the target column. TargetRollingWindowSize
timeColumnName The name of the time column. This parameter is required when forecasting to specify the datetime column in the input data used for building the time series and inferring its frequency. string
timeSeriesIdColumnNames The names of columns used to group a timeseries. It can be used to create multiple series.
If grain is not defined, the data set is assumed to be one time-series. This parameter is used with task type forecasting.
string[]
useStl Configure STL Decomposition of the time-series target column. 'None'
'Season'
'SeasonTrend'

ForecastingTrainingSettings

Name Description Value
allowedTrainingAlgorithms Allowed models for forecasting task. String array containing any of:
'Arimax'
'AutoArima'
'Average'
'DecisionTree'
'ElasticNet'
'ExponentialSmoothing'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LassoLars'
'LightGBM'
'Naive'
'Prophet'
'RandomForest'
'SeasonalAverage'
'SeasonalNaive'
'SGD'
'TCNForecaster'
'XGBoostRegressor'
blockedTrainingAlgorithms Blocked models for forecasting task. String array containing any of:
'Arimax'
'AutoArima'
'Average'
'DecisionTree'
'ElasticNet'
'ExponentialSmoothing'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LassoLars'
'LightGBM'
'Naive'
'Prophet'
'RandomForest'
'SeasonalAverage'
'SeasonalNaive'
'SGD'
'TCNForecaster'
'XGBoostRegressor'
enableDnnTraining Enable recommendation of DNN models. bool
enableModelExplainability Flag to turn on explainability on best model. bool
enableOnnxCompatibleModels Flag for enabling onnx compatible models. bool
enableStackEnsemble Enable stack ensemble run. bool
enableVoteEnsemble Enable voting ensemble run. bool
ensembleModelDownloadTimeout During VotingEnsemble and StackEnsemble model generation, multiple fitted models from the previous child runs are downloaded.
Configure this parameter with a higher value than 300 secs, if more time is needed.
string
stackEnsembleSettings Stack ensemble settings for stack ensemble run. StackEnsembleSettings

GridSamplingAlgorithm

Name Description Value
samplingAlgorithmType [Required] The algorithm used for generating hyperparameter values, along with configuration properties 'Grid' (required)

IdentityConfiguration

Name Description Value
identityType Set to 'AMLToken' for type AmlToken. Set to 'Managed' for type ManagedIdentity. Set to 'UserIdentity' for type UserIdentity. 'AMLToken'
'Managed'
'UserIdentity' (required)

ImageClassification

Name Description Value
limitSettings [Required] Limit settings for the AutoML job. ImageLimitSettings (required)
modelSettings Settings used for training the model. ImageModelSettingsClassification
primaryMetric Primary metric to optimize for this task. 'Accuracy'
'AUCWeighted'
'AveragePrecisionScoreWeighted'
'NormMacroRecall'
'PrecisionScoreWeighted'
searchSpace Search space for sampling different combinations of models and their hyperparameters. ImageModelDistributionSettingsClassification[]
sweepSettings Model sweeping and hyperparameter sweeping related settings. ImageSweepSettings
taskType [Required] Task type for AutoMLJob. 'ImageClassification' (required)
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int

ImageClassificationMultilabel

Name Description Value
limitSettings [Required] Limit settings for the AutoML job. ImageLimitSettings (required)
modelSettings Settings used for training the model. ImageModelSettingsClassification
primaryMetric Primary metric to optimize for this task. 'Accuracy'
'AUCWeighted'
'AveragePrecisionScoreWeighted'
'IOU'
'NormMacroRecall'
'PrecisionScoreWeighted'
searchSpace Search space for sampling different combinations of models and their hyperparameters. ImageModelDistributionSettingsClassification[]
sweepSettings Model sweeping and hyperparameter sweeping related settings. ImageSweepSettings
taskType [Required] Task type for AutoMLJob. 'ImageClassificationMultilabel' (required)
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int

ImageInstanceSegmentation

Name Description Value
limitSettings [Required] Limit settings for the AutoML job. ImageLimitSettings (required)
modelSettings Settings used for training the model. ImageModelSettingsObjectDetection
primaryMetric Primary metric to optimize for this task. 'MeanAveragePrecision'
searchSpace Search space for sampling different combinations of models and their hyperparameters. ImageModelDistributionSettingsObjectDetection[]
sweepSettings Model sweeping and hyperparameter sweeping related settings. ImageSweepSettings
taskType [Required] Task type for AutoMLJob. 'ImageInstanceSegmentation' (required)
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int

ImageLimitSettings

Name Description Value
maxConcurrentTrials Maximum number of concurrent AutoML iterations. int
maxTrials Maximum number of AutoML iterations. int
timeout AutoML job timeout. string

ImageModelDistributionSettingsClassification

Name Description Value
amsGradient Enable AMSGrad when optimizer is 'adam' or 'adamw'. string
augmentations Settings for using Augmentations. string
beta1 Value of 'beta1' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. string
beta2 Value of 'beta2' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. string
distributed Whether to use distributer training. string
earlyStopping Enable early stopping logic during training. string
earlyStoppingDelay Minimum number of epochs or validation evaluations to wait before primary metric improvement
is tracked for early stopping. Must be a positive integer.
string
earlyStoppingPatience Minimum number of epochs or validation evaluations with no primary metric improvement before
the run is stopped. Must be a positive integer.
string
enableOnnxNormalization Enable normalization when exporting ONNX model. string
evaluationFrequency Frequency to evaluate validation dataset to get metric scores. Must be a positive integer. string
gradientAccumulationStep Gradient accumulation means running a configured number of "GradAccumulationStep" steps without
updating the model weights while accumulating the gradients of those steps, and then using
the accumulated gradients to compute the weight updates. Must be a positive integer.
string
layersToFreeze Number of layers to freeze for the model. Must be a positive integer.
For instance, passing 2 as value for 'seresnext' means
freezing layer0 and layer1. For a full list of models supported and details on layer freeze, please
see: /azure/machine-learning/how-to-auto-train-image-models.
string
learningRate Initial learning rate. Must be a float in the range [0, 1]. string
learningRateScheduler Type of learning rate scheduler. Must be 'warmup_cosine' or 'step'. string
modelName Name of the model to use for training.
For more information on the available models please visit the official documentation:
/azure/machine-learning/how-to-auto-train-image-models.
string
momentum Value of momentum when optimizer is 'sgd'. Must be a float in the range [0, 1]. string
nesterov Enable nesterov when optimizer is 'sgd'. string
numberOfEpochs Number of training epochs. Must be a positive integer. string
numberOfWorkers Number of data loader workers. Must be a non-negative integer. string
optimizer Type of optimizer. Must be either 'sgd', 'adam', or 'adamw'. string
randomSeed Random seed to be used when using deterministic training. string
stepLRGamma Value of gamma when learning rate scheduler is 'step'. Must be a float in the range [0, 1]. string
stepLRStepSize Value of step size when learning rate scheduler is 'step'. Must be a positive integer. string
trainingBatchSize Training batch size. Must be a positive integer. string
trainingCropSize Image crop size that is input to the neural network for the training dataset. Must be a positive integer. string
validationBatchSize Validation batch size. Must be a positive integer. string
validationCropSize Image crop size that is input to the neural network for the validation dataset. Must be a positive integer. string
validationResizeSize Image size to which to resize before cropping for validation dataset. Must be a positive integer. string
warmupCosineLRCycles Value of cosine cycle when learning rate scheduler is 'warmup_cosine'. Must be a float in the range [0, 1]. string
warmupCosineLRWarmupEpochs Value of warmup epochs when learning rate scheduler is 'warmup_cosine'. Must be a positive integer. string
weightDecay Value of weight decay when optimizer is 'sgd', 'adam', or 'adamw'. Must be a float in the range[0, 1]. string
weightedLoss Weighted loss. The accepted values are 0 for no weighted loss.
1 for weighted loss with sqrt.(class_weights). 2 for weighted loss with class_weights. Must be 0 or 1 or 2.
string

ImageModelDistributionSettingsObjectDetection

Name Description Value
amsGradient Enable AMSGrad when optimizer is 'adam' or 'adamw'. string
augmentations Settings for using Augmentations. string
beta1 Value of 'beta1' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. string
beta2 Value of 'beta2' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. string
boxDetectionsPerImage Maximum number of detections per image, for all classes. Must be a positive integer.
Note: This settings is not supported for the 'yolov5' algorithm.
string
boxScoreThreshold During inference, only return proposals with a classification score greater than
BoxScoreThreshold. Must be a float in the range[0, 1].
string
distributed Whether to use distributer training. string
earlyStopping Enable early stopping logic during training. string
earlyStoppingDelay Minimum number of epochs or validation evaluations to wait before primary metric improvement
is tracked for early stopping. Must be a positive integer.
string
earlyStoppingPatience Minimum number of epochs or validation evaluations with no primary metric improvement before
the run is stopped. Must be a positive integer.
string
enableOnnxNormalization Enable normalization when exporting ONNX model. string
evaluationFrequency Frequency to evaluate validation dataset to get metric scores. Must be a positive integer. string
gradientAccumulationStep Gradient accumulation means running a configured number of "GradAccumulationStep" steps without
updating the model weights while accumulating the gradients of those steps, and then using
the accumulated gradients to compute the weight updates. Must be a positive integer.
string
imageSize Image size for train and validation. Must be a positive integer.
Note: The training run may get into CUDA OOM if the size is too big.
Note: This settings is only supported for the 'yolov5' algorithm.
string
layersToFreeze Number of layers to freeze for the model. Must be a positive integer.
For instance, passing 2 as value for 'seresnext' means
freezing layer0 and layer1. For a full list of models supported and details on layer freeze, please
see: /azure/machine-learning/how-to-auto-train-image-models.
string
learningRate Initial learning rate. Must be a float in the range [0, 1]. string
learningRateScheduler Type of learning rate scheduler. Must be 'warmup_cosine' or 'step'. string
maxSize Maximum size of the image to be rescaled before feeding it to the backbone.
Must be a positive integer. Note: training run may get into CUDA OOM if the size is too big.
Note: This settings is not supported for the 'yolov5' algorithm.
string
minSize Minimum size of the image to be rescaled before feeding it to the backbone.
Must be a positive integer. Note: training run may get into CUDA OOM if the size is too big.
Note: This settings is not supported for the 'yolov5' algorithm.
string
modelName Name of the model to use for training.
For more information on the available models please visit the official documentation:
/azure/machine-learning/how-to-auto-train-image-models.
string
modelSize Model size. Must be 'small', 'medium', 'large', or 'xlarge'.
Note: training run may get into CUDA OOM if the model size is too big.
Note: This settings is only supported for the 'yolov5' algorithm.
string
momentum Value of momentum when optimizer is 'sgd'. Must be a float in the range [0, 1]. string
multiScale Enable multi-scale image by varying image size by +/- 50%.
Note: training run may get into CUDA OOM if no sufficient GPU memory.
Note: This settings is only supported for the 'yolov5' algorithm.
string
nesterov Enable nesterov when optimizer is 'sgd'. string
nmsIouThreshold IOU threshold used during inference in NMS post processing. Must be float in the range [0, 1]. string
numberOfEpochs Number of training epochs. Must be a positive integer. string
numberOfWorkers Number of data loader workers. Must be a non-negative integer. string
optimizer Type of optimizer. Must be either 'sgd', 'adam', or 'adamw'. string
randomSeed Random seed to be used when using deterministic training. string
stepLRGamma Value of gamma when learning rate scheduler is 'step'. Must be a float in the range [0, 1]. string
stepLRStepSize Value of step size when learning rate scheduler is 'step'. Must be a positive integer. string
tileGridSize The grid size to use for tiling each image. Note: TileGridSize must not be
None to enable small object detection logic. A string containing two integers in mxn format.
Note: This settings is not supported for the 'yolov5' algorithm.
string
tileOverlapRatio Overlap ratio between adjacent tiles in each dimension. Must be float in the range [0, 1).
Note: This settings is not supported for the 'yolov5' algorithm.
string
tilePredictionsNmsThreshold The IOU threshold to use to perform NMS while merging predictions from tiles and image.
Used in validation/ inference. Must be float in the range [0, 1].
Note: This settings is not supported for the 'yolov5' algorithm.
NMS: Non-maximum suppression
string
trainingBatchSize Training batch size. Must be a positive integer. string
validationBatchSize Validation batch size. Must be a positive integer. string
validationIouThreshold IOU threshold to use when computing validation metric. Must be float in the range [0, 1]. string
validationMetricType Metric computation method to use for validation metrics. Must be 'none', 'coco', 'voc', or 'coco_voc'. string
warmupCosineLRCycles Value of cosine cycle when learning rate scheduler is 'warmup_cosine'. Must be a float in the range [0, 1]. string
warmupCosineLRWarmupEpochs Value of warmup epochs when learning rate scheduler is 'warmup_cosine'. Must be a positive integer. string
weightDecay Value of weight decay when optimizer is 'sgd', 'adam', or 'adamw'. Must be a float in the range[0, 1]. string

ImageModelSettingsClassification

Name Description Value
advancedSettings Settings for advanced scenarios. string
amsGradient Enable AMSGrad when optimizer is 'adam' or 'adamw'. bool
augmentations Settings for using Augmentations. string
beta1 Value of 'beta1' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. int
beta2 Value of 'beta2' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. int
checkpointFrequency Frequency to store model checkpoints. Must be a positive integer. int
checkpointModel The pretrained checkpoint model for incremental training. MLFlowModelJobInput
checkpointRunId The id of a previous run that has a pretrained checkpoint for incremental training. string
distributed Whether to use distributed training. bool
earlyStopping Enable early stopping logic during training. bool
earlyStoppingDelay Minimum number of epochs or validation evaluations to wait before primary metric improvement
is tracked for early stopping. Must be a positive integer.
int
earlyStoppingPatience Minimum number of epochs or validation evaluations with no primary metric improvement before
the run is stopped. Must be a positive integer.
int
enableOnnxNormalization Enable normalization when exporting ONNX model. bool
evaluationFrequency Frequency to evaluate validation dataset to get metric scores. Must be a positive integer. int
gradientAccumulationStep Gradient accumulation means running a configured number of "GradAccumulationStep" steps without
updating the model weights while accumulating the gradients of those steps, and then using
the accumulated gradients to compute the weight updates. Must be a positive integer.
int
layersToFreeze Number of layers to freeze for the model. Must be a positive integer.
For instance, passing 2 as value for 'seresnext' means
freezing layer0 and layer1. For a full list of models supported and details on layer freeze, please
see: /azure/machine-learning/how-to-auto-train-image-models.
int
learningRate Initial learning rate. Must be a float in the range [0, 1]. int
learningRateScheduler Type of learning rate scheduler. Must be 'warmup_cosine' or 'step'. 'None'
'Step'
'WarmupCosine'
modelName Name of the model to use for training.
For more information on the available models please visit the official documentation:
/azure/machine-learning/how-to-auto-train-image-models.
string
momentum Value of momentum when optimizer is 'sgd'. Must be a float in the range [0, 1]. int
nesterov Enable nesterov when optimizer is 'sgd'. bool
numberOfEpochs Number of training epochs. Must be a positive integer. int
numberOfWorkers Number of data loader workers. Must be a non-negative integer. int
optimizer Type of optimizer. 'Adam'
'Adamw'
'None'
'Sgd'
randomSeed Random seed to be used when using deterministic training. int
stepLRGamma Value of gamma when learning rate scheduler is 'step'. Must be a float in the range [0, 1]. int
stepLRStepSize Value of step size when learning rate scheduler is 'step'. Must be a positive integer. int
trainingBatchSize Training batch size. Must be a positive integer. int
trainingCropSize Image crop size that is input to the neural network for the training dataset. Must be a positive integer. int
validationBatchSize Validation batch size. Must be a positive integer. int
validationCropSize Image crop size that is input to the neural network for the validation dataset. Must be a positive integer. int
validationResizeSize Image size to which to resize before cropping for validation dataset. Must be a positive integer. int
warmupCosineLRCycles Value of cosine cycle when learning rate scheduler is 'warmup_cosine'. Must be a float in the range [0, 1]. int
warmupCosineLRWarmupEpochs Value of warmup epochs when learning rate scheduler is 'warmup_cosine'. Must be a positive integer. int
weightDecay Value of weight decay when optimizer is 'sgd', 'adam', or 'adamw'. Must be a float in the range[0, 1]. int
weightedLoss Weighted loss. The accepted values are 0 for no weighted loss.
1 for weighted loss with sqrt.(class_weights). 2 for weighted loss with class_weights. Must be 0 or 1 or 2.
int

ImageModelSettingsObjectDetection

Name Description Value
advancedSettings Settings for advanced scenarios. string
amsGradient Enable AMSGrad when optimizer is 'adam' or 'adamw'. bool
augmentations Settings for using Augmentations. string
beta1 Value of 'beta1' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. int
beta2 Value of 'beta2' when optimizer is 'adam' or 'adamw'. Must be a float in the range [0, 1]. int
boxDetectionsPerImage Maximum number of detections per image, for all classes. Must be a positive integer.
Note: This settings is not supported for the 'yolov5' algorithm.
int
boxScoreThreshold During inference, only return proposals with a classification score greater than
BoxScoreThreshold. Must be a float in the range[0, 1].
int
checkpointFrequency Frequency to store model checkpoints. Must be a positive integer. int
checkpointModel The pretrained checkpoint model for incremental training. MLFlowModelJobInput
checkpointRunId The id of a previous run that has a pretrained checkpoint for incremental training. string
distributed Whether to use distributed training. bool
earlyStopping Enable early stopping logic during training. bool
earlyStoppingDelay Minimum number of epochs or validation evaluations to wait before primary metric improvement
is tracked for early stopping. Must be a positive integer.
int
earlyStoppingPatience Minimum number of epochs or validation evaluations with no primary metric improvement before
the run is stopped. Must be a positive integer.
int
enableOnnxNormalization Enable normalization when exporting ONNX model. bool
evaluationFrequency Frequency to evaluate validation dataset to get metric scores. Must be a positive integer. int
gradientAccumulationStep Gradient accumulation means running a configured number of "GradAccumulationStep" steps without
updating the model weights while accumulating the gradients of those steps, and then using
the accumulated gradients to compute the weight updates. Must be a positive integer.
int
imageSize Image size for train and validation. Must be a positive integer.
Note: The training run may get into CUDA OOM if the size is too big.
Note: This settings is only supported for the 'yolov5' algorithm.
int
layersToFreeze Number of layers to freeze for the model. Must be a positive integer.
For instance, passing 2 as value for 'seresnext' means
freezing layer0 and layer1. For a full list of models supported and details on layer freeze, please
see: /azure/machine-learning/how-to-auto-train-image-models.
int
learningRate Initial learning rate. Must be a float in the range [0, 1]. int
learningRateScheduler Type of learning rate scheduler. Must be 'warmup_cosine' or 'step'. 'None'
'Step'
'WarmupCosine'
maxSize Maximum size of the image to be rescaled before feeding it to the backbone.
Must be a positive integer. Note: training run may get into CUDA OOM if the size is too big.
Note: This settings is not supported for the 'yolov5' algorithm.
int
minSize Minimum size of the image to be rescaled before feeding it to the backbone.
Must be a positive integer. Note: training run may get into CUDA OOM if the size is too big.
Note: This settings is not supported for the 'yolov5' algorithm.
int
modelName Name of the model to use for training.
For more information on the available models please visit the official documentation:
/azure/machine-learning/how-to-auto-train-image-models.
string
modelSize Model size. Must be 'small', 'medium', 'large', or 'xlarge'.
Note: training run may get into CUDA OOM if the model size is too big.
Note: This settings is only supported for the 'yolov5' algorithm.
'ExtraLarge'
'Large'
'Medium'
'None'
'Small'
momentum Value of momentum when optimizer is 'sgd'. Must be a float in the range [0, 1]. int
multiScale Enable multi-scale image by varying image size by +/- 50%.
Note: training run may get into CUDA OOM if no sufficient GPU memory.
Note: This settings is only supported for the 'yolov5' algorithm.
bool
nesterov Enable nesterov when optimizer is 'sgd'. bool
nmsIouThreshold IOU threshold used during inference in NMS post processing. Must be a float in the range [0, 1]. int
numberOfEpochs Number of training epochs. Must be a positive integer. int
numberOfWorkers Number of data loader workers. Must be a non-negative integer. int
optimizer Type of optimizer. 'Adam'
'Adamw'
'None'
'Sgd'
randomSeed Random seed to be used when using deterministic training. int
stepLRGamma Value of gamma when learning rate scheduler is 'step'. Must be a float in the range [0, 1]. int
stepLRStepSize Value of step size when learning rate scheduler is 'step'. Must be a positive integer. int
tileGridSize The grid size to use for tiling each image. Note: TileGridSize must not be
None to enable small object detection logic. A string containing two integers in mxn format.
Note: This settings is not supported for the 'yolov5' algorithm.
string
tileOverlapRatio Overlap ratio between adjacent tiles in each dimension. Must be float in the range [0, 1).
Note: This settings is not supported for the 'yolov5' algorithm.
int
tilePredictionsNmsThreshold The IOU threshold to use to perform NMS while merging predictions from tiles and image.
Used in validation/ inference. Must be float in the range [0, 1].
Note: This settings is not supported for the 'yolov5' algorithm.
int
trainingBatchSize Training batch size. Must be a positive integer. int
validationBatchSize Validation batch size. Must be a positive integer. int
validationIouThreshold IOU threshold to use when computing validation metric. Must be float in the range [0, 1]. int
validationMetricType Metric computation method to use for validation metrics. 'Coco'
'CocoVoc'
'None'
'Voc'
warmupCosineLRCycles Value of cosine cycle when learning rate scheduler is 'warmup_cosine'. Must be a float in the range [0, 1]. int
warmupCosineLRWarmupEpochs Value of warmup epochs when learning rate scheduler is 'warmup_cosine'. Must be a positive integer. int
weightDecay Value of weight decay when optimizer is 'sgd', 'adam', or 'adamw'. Must be a float in the range[0, 1]. int

ImageObjectDetection

Name Description Value
limitSettings [Required] Limit settings for the AutoML job. ImageLimitSettings (required)
modelSettings Settings used for training the model. ImageModelSettingsObjectDetection
primaryMetric Primary metric to optimize for this task. 'MeanAveragePrecision'
searchSpace Search space for sampling different combinations of models and their hyperparameters. ImageModelDistributionSettingsObjectDetection[]
sweepSettings Model sweeping and hyperparameter sweeping related settings. ImageSweepSettings
taskType [Required] Task type for AutoMLJob. 'ImageObjectDetection' (required)
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int

ImageSweepSettings

Name Description Value
earlyTermination Type of early termination policy. EarlyTerminationPolicy
samplingAlgorithm [Required] Type of the hyperparameter sampling algorithms. 'Bayesian'
'Grid'
'Random' (required)

JobBaseProperties

Name Description Value
componentId ARM resource ID of the component resource. string
computeId ARM resource ID of the compute resource. string
description The asset description text. string
displayName Display name of job. string
experimentName The name of the experiment the job belongs to. If not set, the job is placed in the "Default" experiment. string
identity Identity configuration. If set, this should be one of AmlToken, ManagedIdentity, UserIdentity or null.
Defaults to AmlToken if null.
IdentityConfiguration
isArchived Is the asset archived? bool
jobType Set to 'AutoML' for type AutoMLJob. Set to 'Command' for type CommandJob. Set to 'Labeling' for type LabelingJobProperties. Set to 'Pipeline' for type PipelineJob. Set to 'Spark' for type SparkJob. Set to 'Sweep' for type SweepJob. 'AutoML'
'Command'
'Labeling'
'Pipeline'
'Spark'
'Sweep' (required)
properties The asset property dictionary. ResourceBaseProperties
services List of JobEndpoints.
For local jobs, a job endpoint will have an endpoint value of FileStreamObject.
JobBaseServices
tags Tag dictionary. Tags can be added, removed, and updated. ResourceBaseTags

JobBaseServices

Name Description Value

JobInput

Name Description Value
description Description for the input. string
jobInputType Set to 'custom_model' for type CustomModelJobInput. Set to 'literal' for type LiteralJobInput. Set to 'mlflow_model' for type MLFlowModelJobInput. Set to 'mltable' for type MLTableJobInput. Set to 'triton_model' for type TritonModelJobInput. Set to 'uri_file' for type UriFileJobInput. Set to 'uri_folder' for type UriFolderJobInput. 'custom_model'
'literal'
'mlflow_model'
'mltable'
'triton_model'
'uri_file'
'uri_folder' (required)

JobOutput

Name Description Value
description Description for the output. string
jobOutputType Set to 'custom_model' for type CustomModelJobOutput. Set to 'mlflow_model' for type MLFlowModelJobOutput. Set to 'mltable' for type MLTableJobOutput. Set to 'triton_model' for type TritonModelJobOutput. Set to 'uri_file' for type UriFileJobOutput. Set to 'uri_folder' for type UriFolderJobOutput. 'custom_model'
'mlflow_model'
'mltable'
'triton_model'
'uri_file'
'uri_folder' (required)

JobResourceConfiguration

Name Description Value
dockerArgs Extra arguments to pass to the Docker run command. This would override any parameters that have already been set by the system, or in this section. This parameter is only supported for Azure ML compute types. string
instanceCount Optional number of instances or nodes used by the compute target. int
instanceType Optional type of VM used as supported by the compute target. string
properties Additional properties bag. ResourceConfigurationProperties
shmSize Size of the docker container's shared memory block. This should be in the format of (number)(unit) where number as to be greater than 0 and the unit can be one of b(bytes), k(kilobytes), m(megabytes), or g(gigabytes). string

Constraints:
Pattern = \d+[bBkKmMgG]

JobScheduleAction

Name Description Value
actionType [Required] Specifies the action type of the schedule 'CreateJob' (required)
jobDefinition [Required] Defines Schedule action definition details. JobBaseProperties (required)

JobService

Name Description Value
endpoint Url for endpoint. string
jobServiceType Endpoint type. string
nodes Nodes that user would like to start the service on.
If Nodes is not set or set to null, the service will only be started on leader node.
Nodes
port Port for endpoint set by user. int
properties Additional properties to set on the endpoint. JobServiceProperties

JobServiceProperties

Name Description Value

LabelCategory

Name Description Value
classes Dictionary of label classes in this category. LabelCategoryClasses
displayName Display name of the label category. string
multiSelectEnabled Indicates whether it is allowed to select multiple classes in this category. bool

LabelCategoryClasses

Name Description Value

LabelClass

Name Description Value
displayName Display name of the label class. string
subclasses Dictionary of subclasses of the label class. LabelClassSubclasses

LabelClassSubclasses

Name Description Value

LabelingDataConfiguration

Name Description Value
dataId Resource Id of the data asset to perform labeling. string
incrementalDataRefreshEnabled Indicates whether to enable incremental data refresh. bool

LabelingJobImageProperties

Name Description Value
annotationType Annotation type of image labeling job. 'BoundingBox'
'Classification'
'InstanceSegmentation'
mediaType [Required] Media type of the job. 'Image' (required)

LabelingJobInstructions

Name Description Value
uri The link to a page with detailed labeling instructions for labelers. string

LabelingJobLabelCategories

Name Description Value

LabelingJobMediaProperties

Name Description Value
mediaType Set to 'Image' for type LabelingJobImageProperties. Set to 'Text' for type LabelingJobTextProperties. 'Image'
'Text' (required)

LabelingJobProperties

Name Description Value
dataConfiguration Configuration of data used in the job. LabelingDataConfiguration
jobInstructions Labeling instructions of the job. LabelingJobInstructions
jobType [Required] Specifies the type of job. 'Labeling' (required)
labelCategories Label categories of the job. LabelingJobLabelCategories
labelingJobMediaProperties Media type specific properties in the job. LabelingJobMediaProperties
mlAssistConfiguration Configuration of MLAssist feature in the job. MLAssistConfiguration

LabelingJobTextProperties

Name Description Value
annotationType Annotation type of text labeling job. 'Classification'
'NamedEntityRecognition'
mediaType [Required] Media type of the job. 'Text' (required)

LiteralJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'literal' (required)
value [Required] Literal value for the input. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

ManagedIdentity

Name Description Value
clientId Specifies a user-assigned identity by client ID. For system-assigned, do not set this field. string

Constraints:
Min length = 36
Max length = 36
Pattern = ^[0-9a-fA-F]{8}-([0-9a-fA-F]{4}-){3}[0-9a-fA-F]{12}$
identityType [Required] Specifies the type of identity framework. 'Managed' (required)
objectId Specifies a user-assigned identity by object ID. For system-assigned, do not set this field. string

Constraints:
Min length = 36
Max length = 36
Pattern = ^[0-9a-fA-F]{8}-([0-9a-fA-F]{4}-){3}[0-9a-fA-F]{12}$
resourceId Specifies a user-assigned identity by ARM resource ID. For system-assigned, do not set this field. string

MedianStoppingPolicy

Name Description Value
policyType [Required] Name of policy configuration 'MedianStopping' (required)

Microsoft.MachineLearningServices/workspaces/schedules

Name Description Value
name The resource name string

Constraints:
Pattern = ^[a-zA-Z0-9][a-zA-Z0-9\-_]{0,254}$ (required)
parent_id The ID of the resource that is the parent for this resource. ID for resource of type: workspaces
properties [Required] Additional attributes of the entity. ScheduleProperties (required)
type The resource type "Microsoft.MachineLearningServices/workspaces/schedules@2022-10-01-preview"

MLAssistConfiguration

Name Description Value
mlAssist Set to 'Disabled' for type MLAssistConfigurationDisabled. Set to 'Enabled' for type MLAssistConfigurationEnabled. 'Disabled'
'Enabled' (required)

MLAssistConfigurationDisabled

Name Description Value
mlAssist [Required] Indicates whether MLAssist feature is enabled. 'Disabled' (required)

MLAssistConfigurationEnabled

Name Description Value
inferencingComputeBinding [Required] AML compute binding used in inferencing. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)
mlAssist [Required] Indicates whether MLAssist feature is enabled. 'Enabled' (required)
trainingComputeBinding [Required] AML compute binding used in training. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

MLFlowModelJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'mlflow_model' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

MLFlowModelJobInput

Name Description Value
description Description for the input. string
jobInputType [Required] Specifies the type of job. 'custom_model'
'literal'
'mlflow_model'
'mltable'
'triton_model'
'uri_file'
'uri_folder' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

MLFlowModelJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'mlflow_model' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

MLTableJobInput

Name Description Value
description Description for the input. string
jobInputType [Required] Specifies the type of job. 'custom_model'
'literal'
'mlflow_model'
'mltable'
'triton_model'
'uri_file'
'uri_folder' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

MLTableJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'mltable' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

MLTableJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'mltable' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

Mpi

Name Description Value
distributionType [Required] Specifies the type of distribution framework. 'Mpi' (required)
processCountPerInstance Number of processes per MPI node. int

NCrossValidations

Name Description Value
mode Set to 'Auto' for type AutoNCrossValidations. Set to 'Custom' for type CustomNCrossValidations. 'Auto'
'Custom' (required)

NlpFixedParameters

Name Description Value
gradientAccumulationSteps Number of steps to accumulate gradients over before running a backward pass. int
learningRate The learning rate for the training procedure. int
learningRateScheduler The type of learning rate schedule to use during the training procedure. 'Constant'
'ConstantWithWarmup'
'Cosine'
'CosineWithRestarts'
'Linear'
'None'
'Polynomial'
modelName The name of the model to train. string
numberOfEpochs Number of training epochs. int
trainingBatchSize The batch size for the training procedure. int
validationBatchSize The batch size to be used during evaluation. int
warmupRatio The warmup ratio, used alongside LrSchedulerType. int
weightDecay The weight decay for the training procedure. int

NlpParameterSubspace

Name Description Value
gradientAccumulationSteps Number of steps to accumulate gradients over before running a backward pass. string
learningRate The learning rate for the training procedure. string
learningRateScheduler The type of learning rate schedule to use during the training procedure. string
modelName The name of the model to train. string
numberOfEpochs Number of training epochs. string
trainingBatchSize The batch size for the training procedure. string
validationBatchSize The batch size to be used during evaluation. string
warmupRatio The warmup ratio, used alongside LrSchedulerType. string
weightDecay The weight decay for the training procedure. string

NlpSweepSettings

Name Description Value
earlyTermination Type of early termination policy for the sweeping job. EarlyTerminationPolicy
samplingAlgorithm [Required] Type of sampling algorithm. 'Bayesian'
'Grid'
'Random' (required)

NlpVerticalFeaturizationSettings

Name Description Value
datasetLanguage Dataset language, useful for the text data. string

NlpVerticalLimitSettings

Name Description Value
maxConcurrentTrials Maximum Concurrent AutoML iterations. int
maxNodes Maximum nodes to leverage for training in any single trial. Controls multi-node distributed training. int
maxTrials Number of AutoML iterations. int
timeout AutoML job timeout. string
trialTimeout Timeout for individual HD trials. string

Nodes

Name Description Value
nodesValueType Set to 'All' for type AllNodes. 'All' (required)

Objective

Name Description Value
goal [Required] Defines supported metric goals for hyperparameter tuning 'Maximize'
'Minimize' (required)
primaryMetric [Required] Name of the metric to optimize. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

PipelineJob

Name Description Value
inputs Inputs for the pipeline job. PipelineJobInputs
jobs Jobs construct the Pipeline Job. PipelineJobJobs
jobType [Required] Specifies the type of job. 'Pipeline' (required)
outputs Outputs for the pipeline job PipelineJobOutputs
settings Pipeline settings, for things like ContinueRunOnStepFailure etc. any
sourceJobId ARM resource ID of source job. string

PipelineJobInputs

Name Description Value

PipelineJobJobs

Name Description Value

PipelineJobOutputs

Name Description Value

PyTorch

Name Description Value
distributionType [Required] Specifies the type of distribution framework. 'PyTorch' (required)
processCountPerInstance Number of processes per node. int

RandomSamplingAlgorithm

Name Description Value
rule The specific type of random algorithm 'Random'
'Sobol'
samplingAlgorithmType [Required] The algorithm used for generating hyperparameter values, along with configuration properties 'Random' (required)
seed An optional integer to use as the seed for random number generation int

RecurrenceSchedule

Name Description Value
hours [Required] List of hours for the schedule. int[] (required)
minutes [Required] List of minutes for the schedule. int[] (required)
monthDays List of month days for the schedule int[]
weekDays List of days for the schedule. String array containing any of:
'Friday'
'Monday'
'Saturday'
'Sunday'
'Thursday'
'Tuesday'
'Wednesday'

RecurrenceTrigger

Name Description Value
frequency [Required] The frequency to trigger schedule. 'Day'
'Hour'
'Minute'
'Month'
'Week' (required)
interval [Required] Specifies schedule interval in conjunction with frequency int (required)
schedule The recurrence schedule. RecurrenceSchedule
triggerType [Required] 'Recurrence' (required)

Regression

Name Description Value
cvSplitColumnNames Columns to use for CVSplit data. string[]
featurizationSettings Featurization inputs needed for AutoML job. TableVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. TableFixedParameters
limitSettings Execution constraints for AutoMLJob. TableVerticalLimitSettings
nCrossValidations Number of cross validation folds to be applied on training dataset
when validation dataset is not provided.
NCrossValidations
primaryMetric Primary metric for regression task. 'NormalizedMeanAbsoluteError'
'NormalizedRootMeanSquaredError'
'R2Score'
'SpearmanCorrelation'
searchSpace Search space for sampling different combinations of models and their hyperparameters. TableParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. TableSweepSettings
taskType [Required] Task type for AutoMLJob. 'Regression' (required)
testData Test data input. MLTableJobInput
testDataSize The fraction of test dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
trainingSettings Inputs for training phase for an AutoML Job. RegressionTrainingSettings
validationData Validation data inputs. MLTableJobInput
validationDataSize The fraction of training dataset that needs to be set aside for validation purpose.
Values between (0.0 , 1.0)
Applied when validation dataset is not provided.
int
weightColumnName The name of the sample weight column. Automated ML supports a weighted column as an input, causing rows in the data to be weighted up or down. string

RegressionTrainingSettings

Name Description Value
allowedTrainingAlgorithms Allowed models for regression task. String array containing any of:
'DecisionTree'
'ElasticNet'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LassoLars'
'LightGBM'
'RandomForest'
'SGD'
'XGBoostRegressor'
blockedTrainingAlgorithms Blocked models for regression task. String array containing any of:
'DecisionTree'
'ElasticNet'
'ExtremeRandomTrees'
'GradientBoosting'
'KNN'
'LassoLars'
'LightGBM'
'RandomForest'
'SGD'
'XGBoostRegressor'
enableDnnTraining Enable recommendation of DNN models. bool
enableModelExplainability Flag to turn on explainability on best model. bool
enableOnnxCompatibleModels Flag for enabling onnx compatible models. bool
enableStackEnsemble Enable stack ensemble run. bool
enableVoteEnsemble Enable voting ensemble run. bool
ensembleModelDownloadTimeout During VotingEnsemble and StackEnsemble model generation, multiple fitted models from the previous child runs are downloaded.
Configure this parameter with a higher value than 300 secs, if more time is needed.
string
stackEnsembleSettings Stack ensemble settings for stack ensemble run. StackEnsembleSettings

ResourceBaseProperties

Name Description Value

ResourceBaseProperties

Name Description Value

ResourceBaseTags

Name Description Value

ResourceBaseTags

Name Description Value

ResourceConfigurationProperties

Name Description Value

SamplingAlgorithm

Name Description Value
samplingAlgorithmType Set to 'Bayesian' for type BayesianSamplingAlgorithm. Set to 'Grid' for type GridSamplingAlgorithm. Set to 'Random' for type RandomSamplingAlgorithm. 'Bayesian'
'Grid'
'Random' (required)

ScheduleActionBase

Name Description Value
actionType Set to 'CreateJob' for type JobScheduleAction. Set to 'InvokeBatchEndpoint' for type EndpointScheduleAction. 'CreateJob'
'InvokeBatchEndpoint' (required)

ScheduleProperties

Name Description Value
action [Required] Specifies the action of the schedule ScheduleActionBase (required)
description The asset description text. string
displayName Display name of schedule. string
isEnabled Is the schedule enabled? bool
properties The asset property dictionary. ResourceBaseProperties
tags Tag dictionary. Tags can be added, removed, and updated. ResourceBaseTags
trigger [Required] Specifies the trigger details TriggerBase (required)

Seasonality

Name Description Value
mode Set to 'Auto' for type AutoSeasonality. Set to 'Custom' for type CustomSeasonality. 'Auto'
'Custom' (required)

SparkJob

Name Description Value
archives Archive files used in the job. string[]
args Arguments for the job. string
codeId [Required] ARM resource ID of the code asset. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)
conf Spark configured properties. SparkJobConf
entry [Required] The entry to execute on startup of the job. SparkJobEntry (required)
environmentId The ARM resource ID of the Environment specification for the job. string
files Files used in the job. string[]
inputs Mapping of input data bindings used in the job. SparkJobInputs
jars Jar files used in the job. string[]
jobType [Required] Specifies the type of job. 'Spark' (required)
outputs Mapping of output data bindings used in the job. SparkJobOutputs
pyFiles Python files used in the job. string[]
resources Compute Resource configuration for the job. SparkResourceConfiguration

SparkJobConf

Name Description Value

SparkJobEntry

Name Description Value
sparkJobEntryType Set to 'SparkJobPythonEntry' for type SparkJobPythonEntry. Set to 'SparkJobScalaEntry' for type SparkJobScalaEntry. 'SparkJobPythonEntry'
'SparkJobScalaEntry' (required)

SparkJobInputs

Name Description Value

SparkJobOutputs

Name Description Value

SparkJobPythonEntry

Name Description Value
file [Required] Relative python file path for job entry point. string

Constraints:
Min length = 1
Pattern = [a-zA-Z0-9_] (required)
sparkJobEntryType [Required] Type of the job's entry point. 'SparkJobPythonEntry' (required)

SparkJobScalaEntry

Name Description Value
className [Required] Scala class name used as entry point. string

Constraints:
Min length = 1
Pattern = [a-zA-Z0-9_] (required)
sparkJobEntryType [Required] Type of the job's entry point. 'SparkJobScalaEntry' (required)

SparkResourceConfiguration

Name Description Value
instanceType Optional type of VM used as supported by the compute target. string
runtimeVersion Version of spark runtime used for the job. string

StackEnsembleSettings

Name Description Value
stackMetaLearnerKWargs Optional parameters to pass to the initializer of the meta-learner. any
stackMetaLearnerTrainPercentage Specifies the proportion of the training set (when choosing train and validation type of training) to be reserved for training the meta-learner. Default value is 0.2. int
stackMetaLearnerType The meta-learner is a model trained on the output of the individual heterogeneous models. 'ElasticNet'
'ElasticNetCV'
'LightGBMClassifier'
'LightGBMRegressor'
'LinearRegression'
'LogisticRegression'
'LogisticRegressionCV'
'None'

SweepJob

Name Description Value
earlyTermination Early termination policies enable canceling poor-performing runs before they complete EarlyTerminationPolicy
inputs Mapping of input data bindings used in the job. SweepJobInputs
jobType [Required] Specifies the type of job. 'Sweep' (required)
limits Sweep Job limit. SweepJobLimits
objective [Required] Optimization objective. Objective (required)
outputs Mapping of output data bindings used in the job. SweepJobOutputs
samplingAlgorithm [Required] The hyperparameter sampling algorithm SamplingAlgorithm (required)
searchSpace [Required] A dictionary containing each parameter and its distribution. The dictionary key is the name of the parameter any (required)
trial [Required] Trial component definition. TrialComponent (required)

SweepJobInputs

Name Description Value

SweepJobLimits

Name Description Value
jobLimitsType [Required] JobLimit type. 'Command'
'Sweep' (required)
maxConcurrentTrials Sweep Job max concurrent trials. int
maxTotalTrials Sweep Job max total trials. int
timeout The max run duration in ISO 8601 format, after which the job will be cancelled. Only supports duration with precision as low as Seconds. string
trialTimeout Sweep Job Trial timeout value. string

SweepJobOutputs

Name Description Value

TableFixedParameters

Name Description Value
booster Specify the boosting type, e.g gbdt for XGBoost. string
boostingType Specify the boosting type, e.g gbdt for LightGBM. string
growPolicy Specify the grow policy, which controls the way new nodes are added to the tree. string
learningRate The learning rate for the training procedure. int
maxBin Specify the Maximum number of discrete bins to bucket continuous features . int
maxDepth Specify the max depth to limit the tree depth explicitly. int
maxLeaves Specify the max leaves to limit the tree leaves explicitly. int
minDataInLeaf The minimum number of data per leaf. int
minSplitGain Minimum loss reduction required to make a further partition on a leaf node of the tree. int
modelName The name of the model to train. string
nEstimators Specify the number of trees (or rounds) in an model. int
numLeaves Specify the number of leaves. int
preprocessorName The name of the preprocessor to use. string
regAlpha L1 regularization term on weights. int
regLambda L2 regularization term on weights. int
subsample Subsample ratio of the training instance. int
subsampleFreq Frequency of subsample. int
treeMethod Specify the tree method. string
withMean If true, center before scaling the data with StandardScalar. bool
withStd If true, scaling the data with Unit Variance with StandardScalar. bool

TableParameterSubspace

Name Description Value
booster Specify the boosting type, e.g gbdt for XGBoost. string
boostingType Specify the boosting type, e.g gbdt for LightGBM. string
growPolicy Specify the grow policy, which controls the way new nodes are added to the tree. string
learningRate The learning rate for the training procedure. string
maxBin Specify the Maximum number of discrete bins to bucket continuous features . string
maxDepth Specify the max depth to limit the tree depth explicitly. string
maxLeaves Specify the max leaves to limit the tree leaves explicitly. string
minDataInLeaf The minimum number of data per leaf. string
minSplitGain Minimum loss reduction required to make a further partition on a leaf node of the tree. string
modelName The name of the model to train. string
nEstimators Specify the number of trees (or rounds) in an model. string
numLeaves Specify the number of leaves. string
preprocessorName The name of the preprocessor to use. string
regAlpha L1 regularization term on weights. string
regLambda L2 regularization term on weights. string
subsample Subsample ratio of the training instance. string
subsampleFreq Frequency of subsample string
treeMethod Specify the tree method. string
withMean If true, center before scaling the data with StandardScalar. string
withStd If true, scaling the data with Unit Variance with StandardScalar. string

TableSweepSettings

Name Description Value
earlyTermination Type of early termination policy for the sweeping job. EarlyTerminationPolicy
samplingAlgorithm [Required] Type of sampling algorithm. 'Bayesian'
'Grid'
'Random' (required)

TableVerticalFeaturizationSettings

Name Description Value
blockedTransformers These transformers shall not be used in featurization. String array containing any of:
'CatTargetEncoder'
'CountVectorizer'
'HashOneHotEncoder'
'LabelEncoder'
'NaiveBayes'
'OneHotEncoder'
'TextTargetEncoder'
'TfIdf'
'WoETargetEncoder'
'WordEmbedding'
columnNameAndTypes Dictionary of column name and its type (int, float, string, datetime etc). TableVerticalFeaturizationSettingsColumnNameAndTypes
datasetLanguage Dataset language, useful for the text data. string
enableDnnFeaturization Determines whether to use Dnn based featurizers for data featurization. bool
mode Featurization mode - User can keep the default 'Auto' mode and AutoML will take care of necessary transformation of the data in featurization phase.
If 'Off' is selected then no featurization is done.
If 'Custom' is selected then user can specify additional inputs to customize how featurization is done.
'Auto'
'Custom'
'Off'
transformerParams User can specify additional transformers to be used along with the columns to which it would be applied and parameters for the transformer constructor. TableVerticalFeaturizationSettingsTransformerParams

TableVerticalFeaturizationSettingsColumnNameAndTypes

Name Description Value

TableVerticalFeaturizationSettingsTransformerParams

Name Description Value

TableVerticalLimitSettings

Name Description Value
enableEarlyTermination Enable early termination, determines whether or not if AutoMLJob will terminate early if there is no score improvement in last 20 iterations. bool
exitScore Exit score for the AutoML job. int
maxConcurrentTrials Maximum Concurrent iterations. int
maxCoresPerTrial Max cores per iteration. int
maxTrials Number of iterations. int
sweepConcurrentTrials Number of concurrent sweeping runs that user wants to trigger. int
sweepTrials Number of sweeping runs that user wants to trigger. int
timeout AutoML job timeout. string
trialTimeout Iteration timeout. string

TargetLags

Name Description Value
mode Set to 'Auto' for type AutoTargetLags. Set to 'Custom' for type CustomTargetLags. 'Auto'
'Custom' (required)

TargetRollingWindowSize

Name Description Value
mode Set to 'Auto' for type AutoTargetRollingWindowSize. Set to 'Custom' for type CustomTargetRollingWindowSize. 'Auto'
'Custom' (required)

TensorFlow

Name Description Value
distributionType [Required] Specifies the type of distribution framework. 'TensorFlow' (required)
parameterServerCount Number of parameter server tasks. int
workerCount Number of workers. If not specified, will default to the instance count. int

TextClassification

Name Description Value
featurizationSettings Featurization inputs needed for AutoML job. NlpVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. NlpFixedParameters
limitSettings Execution constraints for AutoMLJob. NlpVerticalLimitSettings
primaryMetric Primary metric for Text-Classification task. 'Accuracy'
'AUCWeighted'
'AveragePrecisionScoreWeighted'
'NormMacroRecall'
'PrecisionScoreWeighted'
searchSpace Search space for sampling different combinations of models and their hyperparameters. NlpParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. NlpSweepSettings
taskType [Required] Task type for AutoMLJob. 'TextClassification' (required)
validationData Validation data inputs. MLTableJobInput

TextClassificationMultilabel

Name Description Value
featurizationSettings Featurization inputs needed for AutoML job. NlpVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. NlpFixedParameters
limitSettings Execution constraints for AutoMLJob. NlpVerticalLimitSettings
searchSpace Search space for sampling different combinations of models and their hyperparameters. NlpParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. NlpSweepSettings
taskType [Required] Task type for AutoMLJob. 'TextClassificationMultilabel' (required)
validationData Validation data inputs. MLTableJobInput

TextNer

Name Description Value
featurizationSettings Featurization inputs needed for AutoML job. NlpVerticalFeaturizationSettings
fixedParameters Model/training parameters that will remain constant throughout training. NlpFixedParameters
limitSettings Execution constraints for AutoMLJob. NlpVerticalLimitSettings
searchSpace Search space for sampling different combinations of models and their hyperparameters. NlpParameterSubspace[]
sweepSettings Settings for model sweeping and hyperparameter tuning. NlpSweepSettings
taskType [Required] Task type for AutoMLJob. 'TextNER' (required)
validationData Validation data inputs. MLTableJobInput

TrialComponent

Name Description Value
codeId ARM resource ID of the code asset. string
command [Required] The command to execute on startup of the job. eg. "python train.py" string

Constraints:
Min length = 1
Pattern = [a-zA-Z0-9_] (required)
distribution Distribution configuration of the job. If set, this should be one of Mpi, Tensorflow, PyTorch, or null. DistributionConfiguration
environmentId [Required] The ARM resource ID of the Environment specification for the job. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)
environmentVariables Environment variables included in the job. TrialComponentEnvironmentVariables
resources Compute Resource configuration for the job. JobResourceConfiguration

TrialComponentEnvironmentVariables

Name Description Value

TriggerBase

Name Description Value
endTime Specifies end time of schedule in ISO 8601, but without a UTC offset. Refer https://en.wikipedia.org/wiki/ISO_8601.
Recommented format would be "2022-06-01T00:00:01"
If not present, the schedule will run indefinitely
string
startTime Specifies start time of schedule in ISO 8601 format, but without a UTC offset. string
timeZone Specifies time zone in which the schedule runs.
TimeZone should follow Windows time zone format. Refer: /windows-hardware/manufacture/desktop/default-time-zones?view=windows-11
string
triggerType Set to 'Cron' for type CronTrigger. Set to 'Recurrence' for type RecurrenceTrigger. 'Cron'
'Recurrence' (required)

TritonModelJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'triton_model' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

TritonModelJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'triton_model' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

TruncationSelectionPolicy

Name Description Value
policyType [Required] Name of policy configuration 'TruncationSelection' (required)
truncationPercentage The percentage of runs to cancel at each evaluation interval. int

UriFileJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'uri_file' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

UriFileJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'uri_file' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

UriFolderJobInput

Name Description Value
jobInputType [Required] Specifies the type of job. 'uri_folder' (required)
mode Input Asset Delivery Mode. 'Direct'
'Download'
'EvalDownload'
'EvalMount'
'ReadOnlyMount'
'ReadWriteMount'
uri [Required] Input Asset URI. string

Constraints:
Pattern = [a-zA-Z0-9_] (required)

UriFolderJobOutput

Name Description Value
jobOutputType [Required] Specifies the type of job. 'uri_folder' (required)
mode Output Asset Delivery Mode. 'Direct'
'ReadWriteMount'
'Upload'
uri Output Asset URI. string

UserIdentity

Name Description Value
identityType [Required] Specifies the type of identity framework. 'UserIdentity' (required)