Data concepts in Azure Machine Learning
With Azure Machine Learning, you can bring data from a local machine or an existing cloud-based storage. In this article, you'll learn the main Azure Machine Learning data concepts.
A Uniform Resource Identifier (URI) represents a storage location on your local computer, Azure storage, or a publicly available http(s) location. These examples show URIs for different storage options:
|Storage location||URI examples|
|Public http(s) server||
|Azure Data Lake (gen2)||
|Azure Data Lake (gen1)||
|Azure Machine Learning Datastore||
An Azure Machine Learning job maps URIs to the compute target filesystem. This mapping means that in a command that consumes or produces a URI, that URI works like a file or a folder. A URI uses identity-based authentication to connect to storage services, with either your Azure Active Directory ID (default), or Managed Identity. Azure Machine Learning Datastore URIs can apply either identity-based authentication, or credential-based (for example, Service Principal, SAS token, account key) without exposure of secrets.
A URI can serve as either input or an output to an Azure Machine Learning job, and it can map to the compute target filesystem with one of four different mode options:
- Read-only mount (
ro_mount): The URI represents a storage location that is mounted to the compute target filesystem. The mounted data location supports read-only output exclusively.
- Read-write mount (
rw_mount): The URI represents a storage location that is mounted to the compute target filesystem. The mounted data location supports both read output from it and data writes to it.
- Download (
download): The URI represents a storage location containing data that is downloaded to the compute target filesystem.
- Upload (
upload): All data written to a compute target location is uploaded to the storage location represented by the URI.
Additionally, you can pass in the URI as a job input string with the direct mode. This table summarizes the combination of modes available for inputs and outputs:
Input or Output
Read Access data in a job for more information.
A URI (storage location) can reference a file, a folder, or a data table. A machine learning job input and output definition requires one of the following three data types:
|Type||V2 API||V1 API||Canonical Scenarios||V2/V1 API Difference|
Reference a single file
||Read/write a single file - the file can have any format.||A type new to V2 APIs. In V1 APIs, files always mapped to a folder on the compute target filesystem; this mapping required an
Reference a single folder
||You must read/write a folder of parquet/CSV files into Pandas/Spark.
Deep-learning with images, text, audio, video files located in a folder.
|In V1 APIs,
Reference a data table
||You have a complex schema subject to frequent changes, or you need a subset of large tabular data.
AutoML with Tables.
|In V1 APIs, the Azure Machine Learning back-end stored the data materialization blueprint. As a result,
Data runtime capability
Azure Machine Learning uses its own data runtime for mounts/uploads/downloads, to map storage URIs to the compute target filesystem, or to materialize tabular data into pandas/spark with Azure Machine Learning tables (
mltable). The Azure Machine Learning data runtime is designed for machine learning task high speed and high efficiency. Its key benefits include:
- Rust language architecture. The Rust language is known for high speed and high memory efficiency.
- Light weight; the Azure Machine Learning data runtime has no dependencies on other technologies - JVM, for example - so the runtime installs quickly on compute targets.
- Multi-process (parallel) data loading.
- Data pre-fetches operate as background task on the CPU(s), to enhance utilization of the GPU(s) in deep-learning operations.
- Seamless authentication to cloud storage.
An Azure Machine Learning datastore serves as a reference to an existing Azure storage account. The benefits of Azure Machine Learning datastore creation and use include:
- A common, easy-to-use API that interacts with different storage types (Blob/Files/ADLS).
- Easier discovery of useful datastores in team operations.
- For credential-based access (service principal/SAS/key), Azure Machine Learning datastore secures connection information. This way, you won't need to place that information in your scripts.
When you create a datastore with an existing Azure storage account, you can choose between two different authentication methods:
- Credential-based - authenticate data access with a service principal, shared access signature (SAS) token, or account key. Users with Reader workspace access can access the credentials.
- Identity-based - use your Azure Active Directory identity or managed identity to authenticate data access.
The following table summarizes the Azure cloud-based storage services that an Azure Machine Learning datastore can create. Additionally, the table summarizes the authentication types that can access those services:
|Supported storage service||Credential-based authentication||Identity-based authentication|
|Azure Blob Container||✓||✓|
|Azure File Share||✓|
|Azure Data Lake Gen1||✓||✓|
|Azure Data Lake Gen2||✓||✓|
Read Create datastores for more information about datastores.
An Azure Machine Learning data asset resembles web browser bookmarks (favorites). Instead of remembering long storage paths (URIs) that point to your most frequently used data, you can create a data asset, and then access that asset with a friendly name.
Data asset creation also creates a reference to the data source location, along with a copy of its metadata. Because the data remains in its existing location, you incur no extra storage cost, and you don't risk data source integrity. You can create Data assets from Azure Machine Learning datastores, Azure Storage, public URLs, or local files.
Read Create data assets for more information about data assets.
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