OPPORTUNISTIC STORAGE OF NON-WRITE-BOOSTED DATA IN WRITE BOOSTER CACHE MEMORY

Organization Name

micron technology, inc.

Inventor(s)

Giuseppe Cariello of Boise ID (US)

Jonathan S. Parry of Boise ID (US)

Reshmi Basu of Boise ID (US)

OPPORTUNISTIC STORAGE OF NON-WRITE-BOOSTED DATA IN WRITE BOOSTER CACHE MEMORY - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240201888 titled 'OPPORTUNISTIC STORAGE OF NON-WRITE-BOOSTED DATA IN WRITE BOOSTER CACHE MEMORY

Simplified Explanation: This patent application describes a memory device that can selectively write data to either single-level cell cache memory or multi-level cell main memory based on the type of data and the availability of memory in the cache.

Key Features and Innovation:

• Memory device receives a write command with data to be written.
• Indication that single-level cell data caching is deactivated for the data.
• Data is classified as first data type or second data type.
• Selective writing to single-level cell cache memory or multi-level cell main memory based on data type and available memory in cache.

Potential Applications: This technology can be applied in various memory devices where efficient data storage and retrieval are crucial, such as in solid-state drives, servers, and embedded systems.

Problems Solved:

• Efficient utilization of memory resources.
• Improved performance by optimizing data storage based on type.
• Enhanced reliability and longevity of memory devices.

Benefits:

• Faster data access and retrieval.
• Increased storage capacity utilization.
• Extended lifespan of memory devices.
• Enhanced overall system performance.

Commercial Applications: The technology can be utilized in the development of high-performance storage solutions for enterprise servers, data centers, and consumer electronics, improving data processing speeds and overall system efficiency.

Questions about Memory Device Data Writing: 1. How does the memory device determine the type of data being written? 2. What are the implications of selectively writing data to different types of memory based on data type?

Frequently Updated Research: Researchers are continually exploring ways to enhance memory device performance and efficiency through advanced data storage techniques and optimizations. Stay updated on the latest developments in memory technology to leverage the benefits of these innovations.

Original Abstract Submitted

in some implementations, a memory device may receive a write command that includes data to be written to the memory device. the memory device may receive an indication that single-level cell data caching is deactivated for the data. the memory device may determine whether the data is associated with a first data type or a second data type. the memory device may selectively write the data to single-level cell cache memory or multi-level cell main memory based on a determination of whether the data is associated with the first data type or the second data type and a determination of whether the single-level cell cache memory has available memory that is not reserved for the single-level cell data caching.