Micron technology, inc. (20240192887). TECHNIQUES FOR EFFICIENTLY HANDLING MISALIGNED SEQUENTIAL READS simplified abstract
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TECHNIQUES FOR EFFICIENTLY HANDLING MISALIGNED SEQUENTIAL READS
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TECHNIQUES FOR EFFICIENTLY HANDLING MISALIGNED SEQUENTIAL READS - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240192887 titled 'TECHNIQUES FOR EFFICIENTLY HANDLING MISALIGNED SEQUENTIAL READS
The patent application describes methods, systems, and devices for efficiently handling misaligned sequential reads in a memory system with multiple memory dies.
- Memory system includes multiple memory dies
- Receives first and second read commands from a host system
- First command for a first set of physical addresses, second command for a second set
- Determines both commands are for the same memory die
- Transmits a read request to the memory die with both sets of addresses
Potential Applications: - Data storage systems - Computer memory systems - High-performance computing
Problems Solved: - Efficient handling of misaligned sequential reads - Optimization of memory access
Benefits: - Improved data retrieval speed - Enhanced memory system performance - Reduced latency in reading operations
Commercial Applications: Title: "Efficient Memory Access Technology for Data Storage Systems" This technology can be used in: - Servers - Data centers - Cloud computing environments
Prior Art: Prior art related to this technology may include research on memory access optimization and data retrieval techniques in computer systems.
Frequently Updated Research: Researchers may be exploring new algorithms and methods for further improving memory access efficiency in multi-die memory systems.
Questions about Efficient Memory Access Technology: 1. How does this technology compare to traditional memory access methods? 2. What are the potential implications of this innovation for the future of data storage systems?
Original Abstract Submitted
methods, systems, and devices for techniques for efficiently handling misaligned sequential reads are described. a memory system may include a memory device that includes multiple memory dies. the memory system may receive a first read command and a second read command from a host system. the first read command may be associated with a first set of physical addresses and the second read command may be associated with a second set of physical addresses. the memory system may determine, based on the first set of physical addresses and the second set of physical addresses, that the first read command and the second read command are for a same memory die of the multiple memory dies. the memory system may then transmit to the memory die a read request that indicates the first set of physical addresses and the second set of physical addresses.