CREATING HIGH DENSITY LOGICAL TO PHYSICAL MAPPING

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CREATING HIGH DENSITY LOGICAL TO PHYSICAL MAPPING - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240289279 titled 'CREATING HIGH DENSITY LOGICAL TO PHYSICAL MAPPING

Simplified Explanation: The patent application describes methods, systems, and devices for creating high-density logical to physical mapping in a memory system. The system stores logical addresses and their corresponding physical addresses, compresses sequential logical addresses, and updates entries for exceptions.

Memory system implements high-density logical to physical mapping
Storage of mapping information for logical and physical addresses
Compression of sequential logical addresses for efficient storage
Update of entries for exceptions to sequential logical addresses
Macro and micro levels of mapping information for efficient retrieval

Key Features and Innovation: - Efficient storage of logical to physical mapping information - Compression of sequential logical addresses for space optimization - Hierarchical structure of mapping information for quick retrieval - Update mechanism for exceptions to sequential logical addresses - Improved memory system performance and storage efficiency

Potential Applications: - Memory systems in computers and servers - Data storage devices - Virtual memory systems - Cache memory systems - Embedded systems

Problems Solved: - Efficient storage of logical to physical mapping information - Quick retrieval of physical addresses from logical addresses - Space optimization in memory systems - Handling exceptions to sequential logical addresses - Improved memory system performance

Benefits: - Enhanced memory system efficiency - Faster data access and retrieval - Optimal usage of storage space - Improved overall system performance - Simplified memory management

Commercial Applications: Title: High-Density Logical to Physical Mapping Technology in Memory Systems Potential commercial uses include: - Data centers and server farms - Cloud computing infrastructure - Embedded systems in IoT devices - High-performance computing applications - Storage solutions for enterprise environments

Questions about High-Density Logical to Physical Mapping Technology: 1. How does the compression of sequential logical addresses improve memory system performance? 2. What are the potential applications of this technology beyond memory systems?

Frequently Updated Research: - Research on memory system optimization and efficiency - Studies on hierarchical mapping structures in memory systems - Updates on compression algorithms for logical address storage

Original Abstract Submitted

methods, systems, and devices for creating high density logical to physical mapping are described. a memory system may implement storage of mapping information to store the logical addresses and the corresponding physical addresses. a memory system may receive a command associated with data and a corresponding set of logical addresses, and in some cases the memory device may determine that the logical addresses are sequential. the memory device may generate and store a set of compressed entries in a macro level of the mapping information. when the memory system receives a command associated with an exception to the sequential logical addresses, the memory system may update an entry of the macro level to include a pointer to a set of entries in another level of the mapping information.