18611094. STATUS POLLING BASED ON DIE-GENERATED PULSED SIGNAL simplified abstract (Micron Technology, Inc.)
Contents
- 1 STATUS POLLING BASED ON DIE-GENERATED PULSED SIGNAL
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 STATUS POLLING BASED ON DIE-GENERATED PULSED SIGNAL - 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 Memory System Coordination Technology
- 1.13 Original Abstract Submitted
STATUS POLLING BASED ON DIE-GENERATED PULSED SIGNAL
Organization Name
Inventor(s)
Eric N. Lee of San Jose CA (US)
Dheeraj Srinivasan of San Jose CA (US)
STATUS POLLING BASED ON DIE-GENERATED PULSED SIGNAL - A simplified explanation of the abstract
This abstract first appeared for US patent application 18611094 titled 'STATUS POLLING BASED ON DIE-GENERATED PULSED SIGNAL
Simplified Explanation
The memory system described in the patent application includes a ready busy pin connected to multiple dice and a processing device. The processing device waits for a pulse on a status indicator signal from the ready busy pin before performing status checks. It detects an extended pulse that overlaps pulses from different dice, initiates a polling delay period, and then checks the status of dice operations.
- The memory system has a ready busy pin connected to multiple dice and a processing device.
- The processing device waits for a pulse on a status indicator signal before performing status checks.
- It detects an extended pulse overlapping pulses from different dice, initiates a polling delay period, and checks dice operations status.
Key Features and Innovation
- Use of a ready busy pin to coordinate status checks in a memory system.
- Detection of extended pulses to manage overlapping signals from different dice.
- Implementation of a polling delay period to ensure accurate status checks.
Potential Applications
This technology can be applied in various memory systems, data storage devices, and processing units where efficient coordination of status checks is crucial.
Problems Solved
- Efficient coordination of status checks in a memory system with multiple dice.
- Handling overlapping signals from different dice to ensure accurate status detection.
Benefits
- Improved reliability and accuracy in status checks.
- Enhanced performance of memory systems with multiple dice.
- Streamlined coordination of operations in complex memory architectures.
Commercial Applications
Title: Advanced Memory System Coordination Technology This technology can be utilized in high-performance computing systems, data centers, and embedded devices to optimize memory system operations and enhance overall system efficiency.
Prior Art
Readers interested in prior art related to memory system coordination technologies can explore research papers, patents, and industry publications in the field of semiconductor memory systems and data storage technologies.
Frequently Updated Research
Researchers are continuously exploring advancements in memory system coordination, signal processing, and data storage technologies to improve the performance and reliability of modern computing systems.
Questions about Memory System Coordination Technology
How does the use of extended pulses improve the coordination of status checks in memory systems?
Extended pulses help the processing device detect overlapping signals from different dice, allowing for more accurate and efficient status checks.
What are the potential challenges in implementing polling delay periods in memory systems with multiple dice?
One potential challenge could be determining the optimal duration of the polling delay period to ensure timely and accurate status checks without causing delays in system operations.
Original Abstract Submitted
A memory system includes a ready busy pin coupled with a plurality of dice and a processing device coupled with the ready busy pin. The processing device is to perform controller operations including waiting to perform any status checks until after assertion of a pulse on a status indicator signal received from the ready busy pin; detecting the pulse being asserted is an extended pulse comprising at least a partial overlap of a first pulse asserted by a first die and a second pulse asserted by a second die of the plurality of dice; initiating a polling delay period in response to detecting assertion of the extended pulse, wherein the polling delay period is greater than a pulse width of the first pulse; and initiating a first status check of dice operations being performed by the plurality of dice in response to detecting expiration of the polling delay period.