Micron technology, inc. (20240220375). MEMORY SYSTEM FAILURE DETECTION AND SELF RECOVERY OF MEMORY DICE simplified abstract
Contents
MEMORY SYSTEM FAILURE DETECTION AND SELF RECOVERY OF MEMORY DICE
Organization Name
Inventor(s)
Scott A. Stoller of Boise ID (US)
Pitamber Shukla of Boise ID (US)
Kenneth W. Marr of Boise ID (US)
Hossein Afkhami of Berkeley CA (US)
MEMORY SYSTEM FAILURE DETECTION AND SELF RECOVERY OF MEMORY DICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240220375 titled 'MEMORY SYSTEM FAILURE DETECTION AND SELF RECOVERY OF MEMORY DICE
Simplified Explanation: This patent application describes methods, apparatuses, and systems that include memory self-recovery management to correct failures caused by soft-error rate events. The self-recovery manager detects a memory device failure, retrieves register values, stores them, issues a reset command to the memory device, compares the values, and triggers a self-recovery attempt.
Key Features and Innovation:
- Memory self-recovery management system
- Detection of memory device failures
- Retrieval and storage of register values
- Issuance of reset commands to memory devices
- Comparison of register values for self-recovery attempts
Potential Applications: This technology can be applied in various industries such as aerospace, telecommunications, data centers, and automotive for ensuring reliable memory systems.
Problems Solved: The technology addresses failures in memory devices caused by soft-error rate events, ensuring continuous operation and data integrity.
Benefits:
- Improved reliability of memory systems
- Reduced downtime due to memory failures
- Enhanced data integrity and system stability
Commercial Applications: The technology can be utilized in critical systems where memory reliability is paramount, such as in servers, network equipment, and industrial control systems.
Prior Art: Readers can explore prior research on memory self-recovery management systems in the field of computer engineering and reliability engineering.
Frequently Updated Research: Stay updated on the latest advancements in memory self-recovery management systems and their applications in various industries.
Questions about Memory Self-Recovery Management: 1. How does memory self-recovery management differ from traditional error correction methods? 2. What are the key challenges in implementing memory self-recovery management in real-time systems?
Original Abstract Submitted
exemplary methods, apparatuses, and systems including memory self-recovery management to correct failures due to soft-error rate events. the self-recovery manager detects a failure of a memory device. the self-recovery manager retrieves a set of register values from the memory device. the self-recovery manager stores the set of register values from the memory device. the self-recovery manager issues a reset command to the memory device, the reset command including generating a re-initialized set of register values. the self-recovery manager compares the set of register values with the re-initialized set of register values. the self-recovery manager triggering a self-recovery attempt using the comparison of the set of register values with the re-initialized set of register values.
