WRITING USER DATA INTO STORAGE MEMORY

Organization Name

micron technology, inc.

Inventor(s)

Huai-Yuan Tseng of San Ramon CA (US)

Kishore Kumar Mucherla of San Jose CA (US)

William Charles Filipiak of Northville MI (US)

Eric N. Lee of San Jose CA (US)

Andrew Bicksler of Nampa ID (US)

Ugo Russo of Boise ID (US)

Niccolo' Righetti of Boise ID (US)

Christian Caillat of Boise ID (US)

Akira Goda of Setagaya (JP)

Ting Luo of Santa Clara CA (US)

Antonino Pollio of Vico Equense (IT)

WRITING USER DATA INTO STORAGE MEMORY - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240185926 titled 'WRITING USER DATA INTO STORAGE MEMORY

Simplified Explanation: The patent application describes a method for preloading user data onto memory devices before reflowing them onto the system platform of an application. A touch-up data refresh technique is used to protect the preload content during reflow.

• Memory devices are preloaded with user data before being reflowed onto the system platform.
• A touch-up data refresh method is implemented to improve retention and protect the preload content.
• Preload data is programmed into targeted blocks and re-programmed without erasing between programming and re-programming.
• The memory device is prepared with preload data and then reflowed to the application's structure.

Key Features and Innovation:

• Preloading user data onto memory devices before reflowing.
• Touch-up data refresh method to protect preload content.
• Programming and re-programming preload data without erasing.
• Enhancing retention and read window budget.

Potential Applications: This technology can be applied in various industries such as electronics, automotive, aerospace, and medical devices where memory devices are used.

Problems Solved:

• Ensuring user data is preloaded onto memory devices before reflowing.
• Protecting preload content during reflow processes.
• Improving retention and read window budget.

Benefits:

• Enhanced protection of preload content.
• Improved retention and read window budget.
• Efficient preparation of memory devices for applications.

Commercial Applications: The technology can be utilized in the manufacturing of electronic devices, automotive systems, aerospace equipment, and medical devices to ensure data integrity and reliability.

Prior Art: No prior art information is provided in the abstract.

Frequently Updated Research: There is no information on frequently updated research related to this technology.

Questions about Memory Device Preloading: Question 1: How does the touch-up data refresh method improve retention and protect preload content during reflow? Answer: The touch-up data refresh method enhances retention by optimizing the read window budget and protects preload content by reprogramming data without erasing.

Question 2: What are the potential applications of preloading user data onto memory devices before reflowing? Answer: The technology can be applied in various industries such as electronics, automotive, aerospace, and medical devices where memory devices are used to ensure data integrity and reliability.

Original Abstract Submitted

a variety of applications can include one or more memory devices having user data preloaded for the application prior to reflowing the memory devices on the system platform of the application. a touch-up data refresh method can be implemented to gain read window budget and to improve retention slope to protect the preload content to tolerate reflow to the system platform. techniques for data preload can include programming preload data into targeted blocks until the targeted blocks are programmed with the preload data and re-programming the preload data over the programmed preload data in the targeted blocks in a same set of memory cells, without an erase between programming and re-programming the preload data. variations of such techniques can be used to prepare a memory device with preload data followed by performing a reflow of the memory device to a structure for an application to which the memory device is implemented.