Micron technology, inc. (20240220144). TECHNIQUES FOR CONCURRENT HOST SYSTEM ACCESS AND DATA FOLDING simplified abstract
Contents
- 1 TECHNIQUES FOR CONCURRENT HOST SYSTEM ACCESS AND DATA FOLDING
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 TECHNIQUES FOR CONCURRENT HOST SYSTEM ACCESS AND DATA FOLDING - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Key Features and Innovation
- 1.6 Potential Applications
- 1.7 Problems Solved
- 1.8 Benefits
- 1.9 Commercial Applications
- 1.10 Prior Art
- 1.11 Frequently Updated Research
- 1.12 Questions about Concurrent Host System Access and Data Folding
- 1.13 Original Abstract Submitted
TECHNIQUES FOR CONCURRENT HOST SYSTEM ACCESS AND DATA FOLDING
Organization Name
Inventor(s)
Nitul Gohain of Bangalore (IN)
Jameer Mulani of Bangalore (IN)
Jonathan S. Parry of Boise ID (US)
TECHNIQUES FOR CONCURRENT HOST SYSTEM ACCESS AND DATA FOLDING - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240220144 titled 'TECHNIQUES FOR CONCURRENT HOST SYSTEM ACCESS AND DATA FOLDING
Simplified Explanation
The patent application describes methods, systems, and devices for concurrent host system access and data folding in a memory system. This involves transferring data between source and destination data blocks while accessing other data blocks simultaneously.
- The memory system can transfer data between source and destination blocks while accessing other blocks concurrently.
- Commands can be given to access specific data blocks while data transfer is ongoing.
- The system generates orders for transferring data based on the sequence of data reads from destination blocks.
- Data transfer and access can be performed concurrently by excluding certain portions of data from the source block.
Key Features and Innovation
- Simultaneous data transfer and access in a memory system.
- Generation of transfer orders based on data read sequence.
- Exclusion of specific data portions to enable concurrent operations.
Potential Applications
This technology can be applied in:
- High-speed data processing systems.
- Real-time data analysis applications.
- Efficient memory management systems.
Problems Solved
- Overcoming limitations in data transfer and access concurrency.
- Enhancing memory system efficiency.
- Improving overall system performance.
Benefits
- Increased data processing speed.
- Enhanced system responsiveness.
- Optimal memory utilization.
Commercial Applications
Title: "Concurrent Data Transfer and Access Technology for Enhanced System Performance" This technology can be utilized in:
- Data centers for faster data processing.
- Embedded systems for real-time applications.
- High-performance computing environments.
Prior Art
Further research can be conducted in the field of concurrent data transfer and access in memory systems to explore existing technologies and innovations.
Frequently Updated Research
Stay updated on advancements in memory system technology, concurrent data processing, and real-time data analysis for potential improvements in this area.
Questions about Concurrent Host System Access and Data Folding
How does this technology improve data processing efficiency?
This technology allows for concurrent data transfer and access, reducing processing time and enhancing system performance.
What are the potential applications of this technology beyond memory systems?
This technology can be applied in various industries such as data analytics, real-time processing, and high-performance computing for improved efficiency and speed.
Original Abstract Submitted
methods, systems, and devices for techniques for concurrent host system access and data folding are described. a memory system may determine to transfer (e.g., fold) data from a set of source data blocks to a set of destination data blocks. the memory system may receive a command to access a first source data block of the set of source data blocks concurrent with the data transfer. the memory system may generate a first order for transferring respective portions of the data that is based on a second order associated with a sequential read of the data from the set of destination data blocks. based on the accessing the first source data block being concurrent with the data transfer, the first order may exclude a first portion of the data from the first source data block such that the data transfer and the accessing may be concurrently performed.