In-memory database

An in-memory database (IMDB, or main memory database system (MMDB) or memory resident database) is a database management system that primarily relies on main memory for computer data storage. It is contrasted with database management systems that employ a disk storage mechanism. In-memory databases are faster than disk-optimized databases because disk access is slower than memory access and the internal optimization algorithms are simpler and execute fewer CPU instructions. Accessing data in memory eliminates seek time when querying the data, which provides faster and more predictable performance than disk. Applications where response time is critical, such as those running telecommunications network equipment and mobile advertising networks, often use main-memory databases. IMDBs have gained much traction, especially in the data analytics space, starting in the mid-2000s – mainly due to multi-core processors that can address large memory and due to less expensive RAM. A potential technical hurdle with in-memory data storage is the volatility of RAM. Specifically in the event of a power loss, intentional or otherwise, data stored in volatile RAM is lost. With the introduction of non-volatile random-access memory technology, in-memory databases will be able to run at full speed and maintain data in the event of power failure. Atomicity, consistency, isolation, durability In its simplest form, main memory databases store data on volatile memory devices. These devices lose all stored information when the device loses power or is reset. In this case, IMDBs can be said to lack support for the "durability" portion of the ACID (atomicity, consistency, isolation, durability) properties. Volatile memory-based IMDBs can, and often do, support the other three ACID properties of atomicity, consistency and isolation. Many IMDBs have added durability via the following mechanisms: Snapshot files, or, checkpoint images, which record the state of the database at a given moment in time.

GELEX: Generative AI-Hybrid System for Example-Based Learning

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Insights from an extensive triaxial testing campaign on a shale for comparative site characterization of a deep geological repository

GELEX: Generative AI-Hybrid System for Example-Based Learning

When Your AI Becomes a Target: AI Security Incidents and Best Practices

Insights from an extensive triaxial testing campaign on a shale for comparative site characterization of a deep geological repository