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Access data from Azure cloud storage during interactive development

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

A machine learning project typically starts with exploratory data analysis (EDA), data-preprocessing (cleaning, feature engineering), and it includes building ML model prototypes to validate hypotheses. This prototyping project phase is highly interactive in nature, and it lends itself to development in a Jupyter notebook, or in an IDE with a Python interactive console. In this article, learn how to:

  • Access data from an Azure Machine Learning Datastores URI as if it were a file system.
  • Materialize data into Pandas using the mltable Python library.
  • Materialize Azure Machine Learning data assets into Pandas using the mltable Python library.
  • Materialize data through an explicit download with the azcopy utility.

Prerequisites

Tip

The guidance in this article describes data access during interactive development. It applies to any host that can run a Python session. This can include your local machine, a cloud VM, a GitHub Codespace, etc. We recommend use of an Azure Machine Learning compute instance - a fully managed and pre-configured cloud workstation. For more information, visit Create an Azure Machine Learning compute instance.

Important

Ensure you have the latest azure-fsspec, mltable, and azure-ai-ml python libraries installed in your Python environment:

pip install -U azureml-fsspec==1.3.1 mltable azure-ai-ml

The latest azure-fsspec package version can potentially change over time. For more information about the azure-fsspec package, visit this resource.

Access data from a datastore URI, like a filesystem

An Azure Machine Learning datastore is a reference to an existing Azure storage account. The benefits of datastore creation and use include:

  • A common, easy-to-use API to interact with different storage types (Blob/Files/ADLS).
  • Easy discovery of useful datastores in team operations.
  • Support of both credential-based (for example, SAS token) and identity-based (use Microsoft Entra ID or Manged identity) access, to access data.
  • For credential-based access, the connection information is secured, to void key exposure in scripts.
  • Browse data and copy-paste datastore URIs in the Studio UI.

A Datastore URI is a Uniform Resource Identifier, which is a reference to a storage location (path) on your Azure storage account. A datastore URI has this format:

# Azure Machine Learning workspace details:
subscription = '<subscription_id>'
resource_group = '<resource_group>'
workspace = '<workspace>'
datastore_name = '<datastore>'
path_on_datastore = '<path>'

# long-form Datastore uri format:
uri = f'azureml://subscriptions/{subscription}/resourcegroups/{resource_group}/workspaces/{workspace}/datastores/{datastore_name}/paths/{path_on_datastore}'.

These Datastore URIs are a known implementation of the Filesystem spec (fsspec): a unified pythonic interface to local, remote, and embedded file systems and bytes storage. First, use pip to install the azureml-fsspec package and its dependency azureml-dataprep package. Then, you can use the Azure Machine Learning Datastore fsspec implementation.

The Azure Machine Learning Datastore fsspec implementation automatically handles the credential/identity passthrough that the Azure Machine Learning datastore uses. You can avoid both account key exposure in your scripts, and extra sign-in procedures, on a compute instance.

For example, you can directly use Datastore URIs in Pandas. This example shows how to read a CSV file:

import pandas as pd

df = pd.read_csv("azureml://subscriptions/<subid>/resourcegroups/<rgname>/workspaces/<workspace_name>/datastores/<datastore_name>/paths/<folder>/<filename>.csv")
df.head()

Tip

To avoid remembering the datastore URI format, you can copy-and-paste the datastore URI from the Studio UI with these steps:

  1. Select Data from the left-hand menu, then select the Datastores tab.
  2. Select your datastore name, and then Browse.
  3. Find the file/folder you want to read into Pandas, and select the ellipsis (...) next to it. Select Copy URI from the menu. You can select the Datastore URI to copy into your notebook/script. Screenshot highlighting the copy of the datastore URI.

You can also instantiate an Azure Machine Learning filesystem, to handle filesystem-like commands - for example ls, glob, exists, open.

  • The ls() method lists files in a specific directory. You can use ls(), ls(.), ls (<<folder_level_1>/<folder_level_2>) to list files. We support both '.' and '..', in relative paths.
  • The glob() method supports '*' and '**' globbing.
  • The exists() method returns a Boolean value that indicates whether a specified file exists in current root directory.
  • The open() method returns a file-like object, which can be passed to any other library that expects to work with python files. Your code can also use this object, as if it were a normal python file object. These file-like objects respect the use of with contexts, as shown in this example:
from azureml.fsspec import AzureMachineLearningFileSystem

# instantiate file system using following URI
fs = AzureMachineLearningFileSystem('azureml://subscriptions/<subid>/resourcegroups/<rgname>/workspaces/<workspace_name>/datastore*s*/datastorename')

fs.ls() # list folders/files in datastore 'datastorename'

# output example:
# folder1
# folder2
# file3.csv

# use an open context
with fs.open('./folder1/file1.csv') as f:
    # do some process
    process_file(f)

Upload files via AzureMachineLearningFileSystem

from azureml.fsspec import AzureMachineLearningFileSystem
# instantiate file system using following URI
fs = AzureMachineLearningFileSystem('azureml://subscriptions/<subid>/resourcegroups/<rgname>/workspaces/<workspace_name>/datastores/<datastorename>/paths/')

# you can specify recursive as False to upload a file
fs.upload(lpath='data/upload_files/crime-spring.csv', rpath='data/fsspec', recursive=False, **{'overwrite': 'MERGE_WITH_OVERWRITE'})

# you need to specify recursive as True to upload a folder
fs.upload(lpath='data/upload_folder/', rpath='data/fsspec_folder', recursive=True, **{'overwrite': 'MERGE_WITH_OVERWRITE'})

lpath is the local path, and rpath is the remote path. If the folders you specify in rpath don't yet exist, we create the folders for you.

We support three 'overwrite' modes:

  • APPEND: if a file with the same name exists in the destination path, APPEND keeps the original file
  • FAIL_ON_FILE_CONFLICT: if a file with the same name exists in the destination path, FAIL_ON_FILE_CONFLICT throws an error
  • MERGE_WITH_OVERWRITE: if a file with the same name exists in the destination path, MERGE_WITH_OVERWRITE overwrites that existing file with the new file

Download files via AzureMachineLearningFileSystem

# you can specify recursive as False to download a file
# downloading overwrite option is determined by local system, and it is MERGE_WITH_OVERWRITE
fs.download(rpath='data/fsspec/crime-spring.csv', lpath='data/download_files/, recursive=False)

# you need to specify recursive as True to download a folder
fs.download(rpath='data/fsspec_folder', lpath='data/download_folder/', recursive=True)

Examples

These examples show use of the filesystem spec use in common scenarios.

Read a single CSV file into Pandas

You can read a single CSV file into Pandas as shown:

import pandas as pd

df = pd.read_csv("azureml://subscriptions/<subid>/resourcegroups/<rgname>/workspaces/<workspace_name>/datastores/<datastore_name>/paths/<folder>/<filename>.csv")

Read a folder of CSV files into Pandas

The Pandas read_csv() method doesn't support reading a folder of CSV files. To handle this, glob the csv paths, and concatenate them to a data frame with the Pandas concat() method. The next code sample shows how to achieve this concatenation with the Azure Machine Learning filesystem:

import pandas as pd
from azureml.fsspec import AzureMachineLearningFileSystem

# define the URI - update <> placeholders
uri = 'azureml://subscriptions/<subid>/resourcegroups/<rgname>/workspaces/<workspace_name>/datastores/<datastore_name>'

# create the filesystem
fs = AzureMachineLearningFileSystem(uri)

# append csv files in folder to a list
dflist = []
for path in fs.glob('/<folder>/*.csv'):
    with fs.open(path) as f:
        dflist.append(pd.read_csv(f))

# concatenate data frames
df = pd.concat(dflist)
df.head()

Reading CSV files into Dask

This example shows how to read a CSV file into a Dask data frame:

import dask.dd as dd

df = dd.read_csv("azureml://subscriptions/<subid>/resourcegroups/<rgname>/workspaces/<workspace_name>/datastores/<datastore_name>/paths/<folder>/<filename>.csv")
df.head()

Read a folder of parquet files into Pandas

As part of an ETL process, Parquet files are typically written to a folder, which can then emit files relevant to the ETL such as progress, commits, etc. This example shows files created from an ETL process (files beginning with _) which then produce a parquet file of data.

Screenshot showing the parquet ETL process.

In these scenarios, you only read the parquet files in the folder, and ignore the ETL process files. This code sample shows how glob patterns can read only parquet files in a folder:

import pandas as pd
from azureml.fsspec import AzureMachineLearningFileSystem

# define the URI - update <> placeholders
uri = 'azureml://subscriptions/<subid>/resourcegroups/<rgname>/workspaces/<workspace_name>/datastores/<datastore_name>'

# create the filesystem
fs = AzureMachineLearningFileSystem(uri)

# append parquet files in folder to a list
dflist = []
for path in fs.glob('/<folder>/*.parquet'):
    with fs.open(path) as f:
        dflist.append(pd.read_parquet(f))

# concatenate data frames
df = pd.concat(dflist)
df.head()

Accessing data from your Azure Databricks filesystem (dbfs)

Filesystem spec (fsspec) has a range of known implementations, including the Databricks Filesystem (dbfs).

To access data from the dbfs resource, you need:

With these values, you must create an environment variable for the PAT token on your compute instance:

export ADB_PAT=<pat_token>

You can then access data in Pandas, as shown in this example:

import os
import pandas as pd

pat = os.getenv(ADB_PAT)
path_on_dbfs = '<absolute_path_on_dbfs>' # e.g. /folder/subfolder/file.csv

storage_options = {
    'instance':'adb-<some-number>.<two digits>.azuredatabricks.net', 
    'token': pat
}

df = pd.read_csv(f'dbfs://{path_on_dbfs}', storage_options=storage_options)

Reading images with pillow

from PIL import Image
from azureml.fsspec import AzureMachineLearningFileSystem

# define the URI - update <> placeholders
uri = 'azureml://subscriptions/<subid>/resourcegroups/<rgname>/workspaces/<workspace_name>/datastores/<datastore_name>'

# create the filesystem
fs = AzureMachineLearningFileSystem(uri)

with fs.open('/<folder>/<image.jpeg>') as f:
    img = Image.open(f)
    img.show()

PyTorch custom dataset example

In this example, you create a PyTorch custom dataset for processing images. We assume that an annotations file (in CSV format) exists, with this overall structure:

image_path, label
0/image0.png, label0
0/image1.png, label0
1/image2.png, label1
1/image3.png, label1
2/image4.png, label2
2/image5.png, label2

Subfolders store these images, according to their labels:

/
└── 📁images
    ├── 📁0
    │   ├── 📷image0.png
    │   └── 📷image1.png
    ├── 📁1
    │   ├── 📷image2.png
    │   └── 📷image3.png
    └── 📁2
        ├── 📷image4.png
        └── 📷image5.png

A custom PyTorch Dataset class must implement three functions: __init__, __len__, and __getitem__, as shown here:

import os
import pandas as pd
from PIL import Image
from torch.utils.data import Dataset

class CustomImageDataset(Dataset):
    def __init__(self, filesystem, annotations_file, img_dir, transform=None, target_transform=None):
        self.fs = filesystem
        f = filesystem.open(annotations_file)
        self.img_labels = pd.read_csv(f)
        f.close()
        self.img_dir = img_dir
        self.transform = transform
        self.target_transform = target_transform

    def __len__(self):
        return len(self.img_labels)

    def __getitem__(self, idx):
        img_path = os.path.join(self.img_dir, self.img_labels.iloc[idx, 0])
        f = self.fs.open(img_path)
        image = Image.open(f)
        f.close()
        label = self.img_labels.iloc[idx, 1]
        if self.transform:
            image = self.transform(image)
        if self.target_transform:
            label = self.target_transform(label)
        return image, label

You can then instantiate the dataset, as shown here:

from azureml.fsspec import AzureMachineLearningFileSystem
from torch.utils.data import DataLoader

# define the URI - update <> placeholders
uri = 'azureml://subscriptions/<subid>/resourcegroups/<rgname>/workspaces/<workspace_name>/datastores/<datastore_name>'

# create the filesystem
fs = AzureMachineLearningFileSystem(uri)

# create the dataset
training_data = CustomImageDataset(
    filesystem=fs,
    annotations_file='/annotations.csv', 
    img_dir='/<path_to_images>/'
)

# Prepare your data for training with DataLoaders
train_dataloader = DataLoader(training_data, batch_size=64, shuffle=True)

Materialize data into Pandas using mltable library

The mltable library can also help access data in cloud storage. Reading data into Pandas with mltable has this general format:

import mltable

# define a path or folder or pattern
path = {
    'file': '<supported_path>'
    # alternatives
    # 'folder': '<supported_path>'
    # 'pattern': '<supported_path>'
}

# create an mltable from paths
tbl = mltable.from_delimited_files(paths=[path])
# alternatives
# tbl = mltable.from_parquet_files(paths=[path])
# tbl = mltable.from_json_lines_files(paths=[path])
# tbl = mltable.from_delta_lake(paths=[path])

# materialize to Pandas
df = tbl.to_pandas_dataframe()
df.head()

Supported paths

The mltable library supports reading of tabular data from different path types:

Location Examples
A path on your local computer ./home/username/data/my_data
A path on a public http(s) server https://raw.githubusercontent.com/pandas-dev/pandas/main/doc/data/titanic.csv
A path on Azure Storage wasbs://<container_name>@<account_name>.blob.core.windows.net/<path>
abfss://<file_system>@<account_name>.dfs.core.windows.net/<path>
A long-form Azure Machine Learning datastore azureml://subscriptions/<subid>/resourcegroups/<rgname>/workspaces/<wsname>/datastores/<name>/paths/<path>

Note

mltable does user credential passthrough for paths on Azure Storage and Azure Machine Learning datastores. If you do not have permission to access the data on the underlying storage, you cannot access the data.

Files, folders, and globs

mltable supports reading from:

  • file(s) - for example: abfss://<file_system>@<account_name>.dfs.core.windows.net/my-csv.csv
  • folder(s) - for example abfss://<file_system>@<account_name>.dfs.core.windows.net/my-folder/
  • glob pattern(s) - for example abfss://<file_system>@<account_name>.dfs.core.windows.net/my-folder/*.csv
  • a combination of files, folders, and/or globbing patterns

mltable flexibility allows data materialization, into a single dataframe, from a combination of local and cloud storage resources, and combinations of files/folder/globs. For example:

path1 = {
    'file': 'abfss://filesystem@account1.dfs.core.windows.net/my-csv.csv'
}

path2 = {
    'folder': './home/username/data/my_data'
}

path3 = {
    'pattern': 'abfss://filesystem@account2.dfs.core.windows.net/folder/*.csv'
}

tbl = mltable.from_delimited_files(paths=[path1, path2, path3])

Supported file formats

mltable supports the following file formats:

  • Delimited Text (for example: CSV files): mltable.from_delimited_files(paths=[path])
  • Parquet: mltable.from_parquet_files(paths=[path])
  • Delta: mltable.from_delta_lake(paths=[path])
  • JSON lines format: mltable.from_json_lines_files(paths=[path])

Examples

Read a CSV file

Update the placeholders (<>) in this code snippet with your specific details:

import mltable

path = {
    'file': 'abfss://<filesystem>@<account>.dfs.core.windows.net/<folder>/<file_name>.csv'
}

tbl = mltable.from_delimited_files(paths=[path])
df = tbl.to_pandas_dataframe()
df.head()

Read parquet files in a folder

This example shows how mltable can use glob patterns - such as wildcards - to ensure that only the parquet files are read.

Update the placeholders (<>) in this code snippet with your specific details:

import mltable

path = {
    'pattern': 'abfss://<filesystem>@<account>.dfs.core.windows.net/<folder>/*.parquet'
}

tbl = mltable.from_parquet_files(paths=[path])
df = tbl.to_pandas_dataframe()
df.head()

Reading data assets

This section shows how to access your Azure Machine Learning data assets in Pandas.

Table asset

If you previously created a table asset in Azure Machine Learning (an mltable, or a V1 TabularDataset), you can load that table asset into Pandas with this code:

import mltable
from azure.ai.ml import MLClient
from azure.identity import DefaultAzureCredential

ml_client = MLClient.from_config(credential=DefaultAzureCredential())
data_asset = ml_client.data.get(name="<name_of_asset>", version="<version>")

tbl = mltable.load(f'azureml:/{data_asset.id}')
df = tbl.to_pandas_dataframe()
df.head()

File asset

If you registered a file asset (a CSV file, for example), you can read that asset into a Pandas data frame with this code:

import mltable
from azure.ai.ml import MLClient
from azure.identity import DefaultAzureCredential

ml_client = MLClient.from_config(credential=DefaultAzureCredential())
data_asset = ml_client.data.get(name="<name_of_asset>", version="<version>")

path = {
    'file': data_asset.path
}

tbl = mltable.from_delimited_files(paths=[path])
df = tbl.to_pandas_dataframe()
df.head()

Folder asset

If you registered a folder asset (uri_folder or a V1 FileDataset) - for example, a folder containing a CSV file - you can read that asset into a Pandas data frame with this code:

import mltable
from azure.ai.ml import MLClient
from azure.identity import DefaultAzureCredential

ml_client = MLClient.from_config(credential=DefaultAzureCredential())
data_asset = ml_client.data.get(name="<name_of_asset>", version="<version>")

path = {
    'folder': data_asset.path
}

tbl = mltable.from_delimited_files(paths=[path])
df = tbl.to_pandas_dataframe()
df.head()

A note on reading and processing large data volumes with Pandas

Tip

Pandas is not designed to handle large datasets. Pandas can only process data that can fit into the memory of the compute instance.

For large datasets, we recommend use of Azure Machine Learning managed Spark. This provides the PySpark Pandas API.

You might want to iterate quickly on a smaller subset of a large dataset before scaling up to a remote asynchronous job. mltable provides in-built functionality to get samples of large data using the take_random_sample method:

import mltable

path = {
    'file': 'https://raw.githubusercontent.com/pandas-dev/pandas/main/doc/data/titanic.csv'
}

tbl = mltable.from_delimited_files(paths=[path])
# take a random 30% sample of the data
tbl = tbl.take_random_sample(probability=.3)
df = tbl.to_pandas_dataframe()
df.head()

You can also take subsets of large data with these operations:

Downloading data using the azcopy utility

Use the azcopy utility to download the data to the local SSD of your host (local machine, cloud VM, Azure Machine Learning Compute Instance, etc.), into the local filesystem. The azcopy utility, which is preinstalled on an Azure Machine Learning compute instance, handles the data download. If you don't use an Azure Machine Learning compute instance or a Data Science Virtual Machine (DSVM), you might need to install azcopy. For more information, visit azcopy.

Caution

We don't recommend data downloads into the /home/azureuser/cloudfiles/code location on a compute instance. This location is designed to store notebook and code artifacts, not data. Reading data from this location will incur significant performance overhead when training. Instead, we recommend data storage in the home/azureuser, which is the local SSD of the compute node.

Open a terminal and create a new directory, for example:

mkdir /home/azureuser/data

Sign-in to azcopy using:

azcopy login

Next, you can copy data using a storage URI

SOURCE=https://<account_name>.blob.core.windows.net/<container>/<path>
DEST=/home/azureuser/data
azcopy cp $SOURCE $DEST

Next steps