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Version: 0.7.0-incubating

Overview

Introduction

Apache Gravitino is a high-performance, geo-distributed, and federated metadata lake. It manages the metadata directly in different sources, types, and regions. It also provides users with unified metadata access for data and AI assets.

Gravitino Architecture

Gravitino aims to provide several key features:

  • SSOT (Single Source of Truth) for multi-regional data with geo-distributed architecture support.
  • Unified Data + AI asset management for both users and engines.
  • Security in one place, centralize the security for different sources.
  • Built-in data management + data access management.

Architecture

Gravitino Model and Arch

  • Functionality Layer: Gravitino provides an API for users to manage and govern the metadata, including standard metadata creation, update, and delete operations. In the meantime, it also provides the ability to govern the metadata in a unified way, including access control, discovery, and others.
  • Interface Layer: Gravitino provides a standard REST API as the interface layer for users. Future support includes Thrift and JDBC interfaces.
  • Core Object Model: Gravitino defines a generic metadata model to represent the metadata in different sources and types and manages them in a unified way.
  • Connection Layer: In the connection layer, Gravitino provides a set of connectors to connect to different metadata sources, including Apache Hive, MySQL, PostgreSQL, and others. It also allows connecting and managing heterogeneous metadata other than Tabular data.

Features

Unified metadata management and governance

Gravitino abstracts the unified metadata models and APIs for different kinds of metadata sources. For example, relational metadata models for tabular data, like Hive, MySQL, PostgreSQL, etc. File metadata model for all the unstructured data, like HDFS, S3, and others.

Besides the unified metadata models, Gravitino also provides a unified metadata governance layer (WIP) to manage the metadata in a unified way, including access control, auditing, discovery and others.

Direct metadata management

Unlike traditional metadata management systems, which need to collect the metadata actively or passively from underlying systems, Gravitino manages these systems directly. It provides a set of connectors to connect to different metadata sources. The changes in Gravitino directly reflect in the underlying systems, and vice versa.

Geo-distribution support (WIP)

Gravitino supports geo-distribution deployment, which means different instances of Gravitino can deploy in different regions or clouds, and they can connect to get the metadata from each other. With this, users can get a global view of metadata across the regions or clouds.

Multi-engine support

Gravitino supports different query engines to access the metadata. Currently, it supports Trino, users can use Trino to query the metadata and data without needing to change the existing SQL dialects.

In the meantime, other query engine support is on the roadmap, including Apache Spark, Apache Flink and others.

AI asset management (WIP)

The goal of Gravitino is to unify the data management in both data and AI assets. The support of AI assets like models, features, and others are under development.

Terminology

The model of Apache Gravitino

Gravitino Model

  • Metalake: The top-level container for metadata. Typically, one group has one metalake to manage all the metadata in it. Each metalake exposes a three-level namespace(catalog.schema. table) to organize the data.
  • Catalog: A catalog is a collection of metadata from a specific metadata source. Each catalog has a related connector to connect to the specific metadata source.
  • Schema: A schema is equivalent to a database, Schemas only exist in the specific catalogs that support relational metadata sources, such as Apache Hive, MySQL, PostgreSQL, and others.
  • Table: The lowest level in the object hierarchy for catalogs that support relational metadata sources. You can create Tables in specific schemas in the catalogs.
  • Model: The model represents the metadata in the specific catalogs that support model management.