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公开(公告)号:US20210264996A1
公开(公告)日:2021-08-26
申请号:US17006550
申请日:2020-08-28
Applicant: Silicon Storage Technology, Inc.
Inventor: Guangming Lin , Xiaozhou Qian , Xiao Yan Pi , Vipin Tiwari , Zhenlin Ding
Abstract: The present invention relates to systems and methods for implementing wear leveling in a flash memory device that emulates an EEPROM. The embodiments utilize an index array, which stores an index word for each logical address in the emulated EEPROM. Each bit in each index word is associated with a physical address for a physical word in the emulated EEPROM, and the index word keeps track of which physical word is the current word for a particular logical address. The use of the index word enables a wear leveling algorithm that allows for a programming command to a logical address to result in: (i) skipping the programming operation if the data stored in the current word does not contain a “1” that corresponds to a “0” in the data to be stored, (ii) reprogramming one or more bits of the current word in certain situations, or (iii) shifting to and programming the next physical word in certain situations.
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公开(公告)号:US20220130477A1
公开(公告)日:2022-04-28
申请号:US17571443
申请日:2022-01-07
Applicant: Silicon Storage Technology, Inc.
Inventor: Guangming Lin , Xiaozhou Qian , Xiao Yan Pl , Vipin Tiwari , Zhenlin Ding
Abstract: The present embodiments relate to systems and methods for implementing wear leveling in a flash memory device that emulates an EEPROM. The embodiments utilize an index array, which stores an index word for each logical address in the emulated EEPROM. The embodiments comprise a system and method for receiving an erase command and a logical address, the logical address corresponding to a sector of physical words of non-volatile memory cells in an array of non-volatile memory cells, the sector comprising a first physical word, a last physical word, and one or more physical words between the first physical word and the last physical word; when a current word, identified by an index bit, is the last physical word in the sector, erasing the sector; and when the current word is not the last physical word in the sector, changing a next index bit.
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公开(公告)号:US11626176B2
公开(公告)日:2023-04-11
申请号:US17571443
申请日:2022-01-07
Applicant: Silicon Storage Technology, Inc.
Inventor: Guangming Lin , Xiaozhou Qian , Xiao Yan Pi , Vipin Tiwari , Zhenlin Ding
Abstract: The present embodiments relate to systems and methods for implementing wear leveling in a flash memory device that emulates an EEPROM. The embodiments utilize an index array, which stores an index word for each logical address in the emulated EEPROM. The embodiments comprise a system and method for receiving an erase command and a logical address, the logical address corresponding to a sector of physical words of non-volatile memory cells in an array of non-volatile memory cells, the sector comprising a first physical word, a last physical word, and one or more physical words between the first physical word and the last physical word; when a current word, identified by an index bit, is the last physical word in the sector, erasing the sector; and when the current word is not the last physical word in the sector, changing a next index bit.
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公开(公告)号:US11257555B2
公开(公告)日:2022-02-22
申请号:US17006550
申请日:2020-08-28
Applicant: Silicon Storage Technology, Inc.
Inventor: Guangming Lin , Xiaozhou Qian , Xiao Yan Pi , Vipin Tiwari , Zhenlin Ding
Abstract: The present invention relates to systems and methods for implementing wear leveling in a flash memory device that emulates an EEPROM. The embodiments utilize an index array, which stores an index word for each logical address in the emulated EEPROM. Each bit in each index word is associated with a physical address for a physical word in the emulated EEPROM, and the index word keeps track of which physical word is the current word for a particular logical address. The use of the index word enables a wear leveling algorithm that allows for a programming command to a logical address to result in: (i) skipping the programming operation if the data stored in the current word does not contain a “1” that corresponds to a “0” in the data to be stored, (ii) reprogramming one or more bits of the current word in certain situations, or (iii) shifting to and programming the next physical word in certain situations.
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