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Run a CNTK training job using the Azure Python SDK

This article shows you how to use the Azure Python SDK to train a sample Microsoft Cognitive Toolkit (CNTK) model using the Batch AI service.

In this example, you use the MNIST database of handwritten images to train a convolutional neural network (CNN) on a single-node GPU cluster.

Prerequisites

az provider register -n Microsoft.BatchAI

Configure credentials

Add the following code into your script file and replace FILL-IN-HERE with appropriate values:

# credentials used for authentication
aad_client_id = 'FILL-IN-HERE'
aad_secret = 'FILL-IN-HERE'
aad_tenant = 'FILL-IN-HERE'
subscription_id = 'FILL-IN-HERE'

# credentials used for storage
storage_account_name = 'FILL-IN-HERE'
storage_account_key = 'FILL-IN-HERE'

# specify the credentials used to remote login your GPU node
admin_user_name = 'FILL-IN-HERE'
admin_user_password = 'FILL-IN-HERE'

# specify the location in which to create Batch AI resources
mylocation = 'eastus'

Note, that putting credentials into the source code is not a good practice and it's done here to make the quickstart simpler. Consider to use environment variables or a separate configuration file instead.

Create Batch AI client

The following code creates a service principal credentials object and Batch AI client:

from azure.common.credentials import ServicePrincipalCredentials
import azure.mgmt.batchai as batchai
import azure.mgmt.batchai.models as models

creds = ServicePrincipalCredentials(
		client_id=aad_client_id, secret=aad_secret, tenant=aad_tenant)

batchai_client = batchai.BatchAIManagementClient(
    credentials=creds, subscription_id=subscription_id)

Create a resource group

Batch AI clusters and jobs are Azure resources and must be placed in an Azure resource group. The following snippet creates a resource group:

from azure.mgmt.resource import ResourceManagementClient

resource_group_name = 'myresourcegroup'
resource_management_client = ResourceManagementClient(
        credentials=creds, subscription_id=subscription_id)
resource = resource_management_client.resource_groups.create_or_update(
        resource_group_name, {'location': mylocation})

Prepare Azure file share

For illustration purposes, this quickstart uses an Azure File share to host the training data and scripts for the training job.

Create a file share named batchaiquickstart.

from azure.storage.file import FileService
azure_file_share_name = 'batchaiquickstart'
service = FileService(storage_account_name, storage_account_key)
service.create_share(azure_file_share_name, fail_on_exist=False)

Create a directory in the share named mnistcntksample.

mnist_dataset_directory = 'mnistcntksample'
service.create_directory(azure_file_share_name, mnist_dataset_directory, fail_on_exist=False)

Download the sample package and unzip into the current directory. The following code uploads required files into the Azure File share:

for f in ['Train-28x28_cntk_text.txt', 'Test-28x28_cntk_text.txt',
          'ConvNet_MNIST.py']:
     service.create_file_from_path(
             azure_file_share_name, mnist_dataset_directory, f, f)

Create Batch AI workspace

A workspace is a top-level collection of all types of Batch AI resources. You create your Batch AI cluster and experiments in a workspace.

workspace_name='myworkspace'
batchai_client.workspaces.create(resource_group_name, workspace_name, mylocation)

Create GPU cluster

Create a Batch AI cluster. In this example, the cluster consists of a single STANDARD_NC6 VM node. This VM size has one NVIDIA K80 GPU. Mount the file share at a folder named azurefileshare. The full path of this folder on the GPU compute node is $AZ_BATCHAI_MOUNT_ROOT/azurefileshare.

cluster_name = 'mycluster'

relative_mount_point = 'azurefileshare'

parameters = models.ClusterCreateParameters(
    # VM size. Use N-series for GPU
    vm_size='STANDARD_NC6',
    # Configure the ssh users
    user_account_settings=models.UserAccountSettings(
        admin_user_name=admin_user_name,
        admin_user_password=admin_user_password),
    # Number of VMs in the cluster
    scale_settings=models.ScaleSettings(
        manual=models.ManualScaleSettings(target_node_count=1)
    ),
    # Configure each node in the cluster
    node_setup=models.NodeSetup(
        # Mount shared volumes to the host
        mount_volumes=models.MountVolumes(
            azure_file_shares=[
                models.AzureFileShareReference(
                    account_name=storage_account_name,
                    credentials=models.AzureStorageCredentialsInfo(
                        account_key=storage_account_key),
                    azure_file_url='https://{0}/{1}'.format(
                        service.primary_endpoint, azure_file_share_name),
                    relative_mount_path=relative_mount_point)],
        ),
    ),
)
batchai_client.clusters.create(resource_group_name, workspace_name, cluster_name,
                               parameters).result()

Get cluster status

Monitor the cluster status using the following command:

cluster = batchai_client.clusters.get(resource_group_name, workspace_name, cluster_name)
print('Cluster state: {0} Target: {1}; Allocated: {2}; Idle: {3}; '
      'Unusable: {4}; Running: {5}; Preparing: {6}; Leaving: {7}'.format(
    cluster.allocation_state,
    cluster.scale_settings.manual.target_node_count,
    cluster.current_node_count,
    cluster.node_state_counts.idle_node_count,
    cluster.node_state_counts.unusable_node_count,
    cluster.node_state_counts.running_node_count,
    cluster.node_state_counts.preparing_node_count,
    cluster.node_state_counts.leaving_node_count))

The preceding code prints basic cluster allocation information like in the following example:

Cluster state: AllocationState.steady Target: 1; Allocated: 1; Idle: 0; Unusable: 0; Running: 0; Preparing: 1; Leaving: 0

The cluster is ready when the nodes are allocated and finished preparation (see the nodeStateCounts attribute). If something went wrong, the errors attribute contains the error description.

Create experiment and training job

After the cluster is created, create an experiment (a logical container for a group of related jobs). Then configure and submit a learning job in the experiment:

experiment_name='myexperiment'

batchai_client.experiments.create(resource_group_name, workspace_name, experiment_name)

job_name = 'myjob'

parameters = models.JobCreateParameters(
    # The cluster this job will run on
    cluster=models.ResourceId(id=cluster.id),
    # The number of VMs in the cluster to use
    node_count=1,
    # Write job's standard output and execution log to Azure File Share
    std_out_err_path_prefix='$AZ_BATCHAI_MOUNT_ROOT/{0}'.format(
        relative_mount_point),
    # Configure location of the training script and MNIST dataset
    input_directories=[models.InputDirectory(
        id='SAMPLE',
        path='$AZ_BATCHAI_MOUNT_ROOT/{0}/{1}'.format(
            relative_mount_point, mnist_dataset_directory))],
    # Specify location where generated model will be stored
    output_directories=[models.OutputDirectory(
        id='MODEL',
        path_prefix='$AZ_BATCHAI_MOUNT_ROOT/{0}'.format(relative_mount_point),
        path_suffix="Models")],
    # Container configuration
    container_settings=models.ContainerSettings(
        image_source_registry=models.ImageSourceRegistry(
            image='microsoft/cntk:2.1-gpu-python3.5-cuda8.0-cudnn6.0')),
    # Toolkit specific settings
    cntk_settings=models.CNTKsettings(
        python_script_file_path='$AZ_BATCHAI_INPUT_SAMPLE/ConvNet_MNIST.py',
        command_line_args='$AZ_BATCHAI_INPUT_SAMPLE $AZ_BATCHAI_OUTPUT_MODEL')
)

# Create the job
batchai_client.jobs.create(resource_group_name, workspace_name, experiment_name, job_name, parameters).result()

Monitor job

You can inspect the job’s state using the following code:

job = batchai_client.jobs.get(resource_group_name, workspace_name, experiment_name, job_name)

print('Job state: {0} '.format(job.execution_state))

Output is similar to: Job state: running.

The executionState contains the current execution state of the job:

  • queued: the job is waiting for the cluster nodes to become available
  • running: the job is running
  • succeeded (or failed): the job is completed and executionInfo contains details about the result

List stdout and stderr output

Use the following code to list generated stdout, stderr, and log files:

files = batchai_client.jobs.list_output_files(
    resource_group_name, workspace_name, experiment_name, job_name,
    models.JobsListOutputFilesOptions(outputdirectoryid="stdouterr"))

for file in (f for f in files if f.download_url):
    print('file: {0}, download url: {1}'.format(file.name, file.download_url))

List generated model files

Use the following code to list generated model files:

files = batchai_client.jobs.list_output_files(
    resource_group_name, workspace_name, experiment_name,job_name,
    models.JobsListOutputFilesOptions(outputdirectoryid="MODEL"))

for file in (f for f in files if f.download_url):
    print('file: {0}, download url: {1}'.format(file.name, file.download_url))

Delete resources

Use the following code to delete the job:

batchai_client.jobs.delete(resource_group_name, workspace_name, experiment_name, job_name)

Use the following code to delete the cluster:

batchai_client.clusters.delete(resource_group_name, workspace_name, cluster_name)

Use the following code to delete all allocated resources:

resource_management_client.resource_groups.delete('myresourcegroup')

Next steps

To learn more about using Batch AI with different frameworks, see the training recipes.