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A Closer Look at the Top 3 Embedded Databases: SQLite, RocksDB, and DuckDBby@olontsev
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12,122 reads

A Closer Look at the Top 3 Embedded Databases: SQLite, RocksDB, and DuckDB

by Sergey OlontsevAugust 29th, 2023
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This article delves into SQLite, RocksDB, and DuckDB, highlighting their histories and key features. Discover why these embedded databases are pivotal in today's tech landscape.
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In the vast expanse of the digital realm, data is the lifeblood that sustains, instructs, and enriches countless applications. Central to the management and efficient use of this data are databases, and among them, embedded databases have carved out a distinctive niche.


An embedded database is essentially a database management system (DBMS) that is tightly integrated within an application's software. Unlike standalone databases which run on dedicated servers and cater to multiple applications, embedded databases run within the application itself, ensuring a seamless data flow with minimal setup and external dependencies.


The importance of embedded databases in modern application design is multifold. Firstly, their self-contained nature means they can operate without the overhead of server maintenance, making deployment and distribution simpler. This is especially crucial for applications that need to be agile and responsive, devoid of external bottlenecks. Secondly, with data being a crucial asset, an embedded approach often brings with it enhanced security, as data doesn't have to traverse over networks or interact with external systems.


Furthermore, the use cases for embedded databases span a wide spectrum. From powering local data storage on mobile apps, to being the heart of IoT devices collecting real-time metrics, and even serving as the foundational data store for large desktop software, embedded databases have proven to be versatile, efficient, and resilient.


As we journey through this article, we'll delve deeper into three of the top embedded databases that are shaping the industry: SQLite, RocksDB, and DuckDB, uncovering what makes each of them stand out in their own right.

SQLite

SQLite's origins can be traced back to the early 2000s when it was conceived by D. Richard Hipp. The initial motivation wasn't to create a widely-used database, but rather to serve a specific need in a software project Hipp was working on. The aim was to develop a no-fuss, serverless, zero-configuration, and self-contained database engine, and SQLite was the result.


August, 2000: SQLite is publicly released as version 1.0. It stands out by virtue of its self-contained nature, where an entire relational database is stored in a single cross-platform disk file.

September, 2001: Version 2.0 was released with improved storage with a custom B-tree implementation, adding transaction capability.


June, 2004: SQLite 3, the version most widely used today, was introduced. It brought in many improvements over the previous versions, including a new file format which offers better performance and support for more SQL features. This version set the stage for SQLite's rise to ubiquity.


SQLite is a powerhouse for developers when it comes to its SQL language capabilities. It understands most of the standard SQL language, but it does omit some features while at the same time adding a few features of its own. It provides extensive support for upsert operations via the "INSERT ON CONFLICT" clause, giving developers flexibility in handling unique constraint violations. Subqueries are also well-supported, allowing for complex nested operations within SELECT, INSERT, UPDATE, and DELETE statements. Additionally, SQLite permits the creation of user-defined functions and aggregates, granting developers the ability to tailor the SQL environment to specific needs. Furthermore, its robust set of built-in functions, from string manipulation to date-time operations, ensures that developers have a rich toolkit to perform varied transformations and computations directly within SQL queries.


Over the years, SQLite's reputation as a reliable and efficient database system grew. It has been famously adopted in various applications and platforms. From web browsers like Firefox and Chrome storing bookmarks and web history, to mobile operating systems like iOS and Android powering app data storage, SQLite's footprint is vast.


Today, SQLite prides itself on being the most widely deployed and used database engine. Its public domain source code, rigorous testing, and commitment to reliability have made it a staple for developers across the globe.

RocksDB

RocksDB, a high-performance embedded database tailored for key-value data, was birthed out of the vibrant ecosystem of open-source projects at Facebook. It is essentially an evolution, aimed at addressing the unique storage needs of the tech giant.


April, 2012: RocksDB was created by Dhruba Borthakur as a fork of Google's LevelDB optimized to exploit multi-core processors (CPUs), and make efficient use of fast storage, such as solid-state drives (SSD), for input/output (I/O) bound workloads. It is based on a log-structured merge-tree (LSM tree) data structure. The primary motivation behind RocksDB was to extend LevelDB's capabilities to meet the performance, efficiency, and flexibility demands of Facebook's massive real-time applications.


November, 2013: RocksDB was open-sourced by Facebook, allowing a community of developers and industries to contribute, adapt, and integrate it into their specific use cases. The decision to open-source also catalyzed a flurry of enhancements and adaptations, driven by the collective wisdom of the community.


Over the subsequent years, RocksDB rapidly evolved. It introduced features like optimized data compaction, tunable write-ahead logs, and enhancements that provided significant performance boosts. All these were designed to cater to applications that demanded low-latency database reads and writes, especially in large-scale, real-time environments.


RocksDB's design makes it adaptable beyond just key-value storage; its pluggable framework allows it to serve as a storage engine for other higher-level database systems. For example, such well known systems as Apache Flink, TiDB and YugabyteDB use RocksDB as their embedded storage engine.


Today, RocksDB is recognized as a robust, high-speed storage solution that powers various products, both within and outside Facebook. From real-time analytics to search infrastructure and messaging platforms, its adaptability and performance have made it a go-to choice for many in the industry.

DuckDB

DuckDB stands as an intriguing testament to the evolving needs of analytical data processing in a modern context. This analytical data management system, tailored for embedded analytics, is a fairly recent entrant into the database realm but has quickly carved out its own niche.


2018-2019: The initial foundations of DuckDB began taking shape around this time. Unlike many other databases focused on transactional workloads, DuckDB was specifically architected to cater to analytical queries, all within an embedded context. The creators, Mark Raasveldt and Hannes Mühleisen, aimed to design a system that provided efficient analytical data processing without the need for an external system or heavy infrastructure.


DuckDB's design was heavily influenced by the MonetDB, a column-store database known for its efficient handling of analytical workloads. However, where MonetDB was a full-fledged server, DuckDB was intended to be lightweight and embedded.


One of the standout features of DuckDB was its ability to handle vectorized query execution. This method processes data in chunks or "vectors" rather than row by row, which significantly boosts query performance, especially for analytical operations.


DuckDB also garnered attention for its ease of integration. Given its embedded nature, developers could easily incorporate it into various software applications, from Python data science platforms to web-based analytics tools.


2020 and beyond: The popularity and adoption of DuckDB have been on the rise. The database system has been praised for its ability to combine the speed of analytical databases with the simplicity and low overhead of embedded systems.


As of the last update, DuckDB continues to evolve, with an active community contributing towards its growth and enhancements. The database has found its place in diverse applications, from research projects to commercial platforms, attesting to its flexibility and robustness.

Conclusion

The landscape of embedded databases has evolved significantly over the past two decades, driven by the demands of diverse applications, from mobile apps to cutting-edge research platforms. As we've explored, SQLite, RocksDB, and DuckDB each represent a unique blend of design philosophies, optimizations, and application scenarios. Whether you're a developer seeking a lightweight storage solution or a researcher looking for efficient analytical processing, the world of embedded databases offers a myriad of options to cater to your needs.


The journey, however, doesn't end here. As technology continues to advance and the data deluge grows, the evolution of embedded databases will undoubtedly march forward, ushering in new optimizations, features, and perhaps even challenges. For those keen on diving deeper into each of these powerful tools, the following resources provide comprehensive insights:


In closing, the realm of embedded databases, with its blend of versatility and efficiency, promises to remain a cornerstone of application development and data management in the years to come. Embracing and understanding these tools is not just beneficial - it's essential for anyone keen on staying ahead in the rapidly evolving tech landscape.