A memory control method for a rewritable non-volatile memory module is provided according to an exemplary embodiment of the disclosure. The method includes: reading a first physical unit based on a first read voltage level to obtain first data; reading the first physical unit based on a second read voltage level to obtain second data; reading the first physical unit based on a third read voltage level to obtain third data; obtaining a first reference value which reflects a data variation status between the first data and the second data; obtaining a second reference value which reflects a data variation status between the first data and the third data; reading the first physical unit based on a fourth read voltage level to obtain fourth data according to the first reference value and the second reference value; and decoding the fourth data by a decoding circuit.

Methods, systems, and media for decoding data are described. A sequence of read-level voltages for decoding operations may be determined based on a trend of decoding success indicators, including a first decoding success indicator and a second decoding success indicator. The first decoding success indicator is obtained from a more recent successful decoding operation. The first one of the sequence may be set to a read-level voltage of the first decoding success indicator. If the read-level voltage of the first decoding success indicator is less than a read-level voltage of the second decoding success indicator, then the trend is decreasing, and the second one of the sequence may be set to a read-level voltage less than that of the first one of the sequence. After executing one or more decoding operations, the decoding success indicators may be updated based on the read-level voltage of the current successful decoding operation.

Methods, systems, and media for decoding data are described. A sequence of read-level voltages for decoding operations may be determined based on a trend of decoding success indicators, including a first decoding success indicator and a second decoding success indicator. The first decoding success indicator is obtained from a more recent successful decoding operation. The first one of the sequence may be set to a read-level voltage of the first decoding success indicator. If the read-level voltage of the first decoding success indicator is less than a read-level voltage of the second decoding success indicator, then the trend is decreasing, and the second one of the sequence may be set to a read-level voltage less than that of the first one of the sequence. After executing one or more decoding operations, the decoding success indicators may be updated based on the read-level voltage of the current successful decoding operation.

An operation method of a memory system includes performing a first read operation on a word line corresponding to a read command, using a read voltage set including a first read voltage; performing a second read operation on the word line using a second read voltage greater than the first read voltage, depending on whether error correction on data read through the first read operation fails; and determining a memory block that includes a memory cell to which the word line is coupled as a closed memory block, depending on whether the word line is determined to be an erased word line as the result of the second read operation.

For a non-volatile memory that uses hard bit and soft bit data in error correction operations, to reduce the amount of soft bit data that needs to be transferred from a memory to the controller and improve memory system performance, the soft bit data can be compressed before transfer. After the soft bit data is read and stored into the internal data latches associated with the sense amplifiers, it is compressed within these internal data latches. The compressed soft bit data can then be transferred to the transfer data latches of a cache buffer, where the compressed soft bit data can be consolidated and transferred out over an input-output interface. Within the input-output interface, the compressed data can be reshuffled to put into logical user data order if needed.

Methods, systems, and media for decoding data are described. A sequence of read-level voltages for decoding operations may be determined based on a trend of decoding success indicators, including a first decoding success indicator and a second decoding success indicator. The first decoding success indicator is obtained from a more recent successful decoding operation. The first one of the sequence may be set to a read-level voltage of the first decoding success indicator. If the read-level voltage of the first decoding success indicator is less than a read-level voltage of the second decoding success indicator, then the trend is decreasing, and the second one of the sequence may be set to a read-level voltage less than that of the first one of the sequence. After executing one or more decoding operations, the decoding success indicators may be updated based on the read-level voltage of the current successful decoding operation.

Page-level reference voltage parameterization techniques are provided for solid state memory devices. A method comprises obtaining a bit error count for a plurality of page numbers across a plurality of blocks of a solid state memory device; determining a substantially optimal reference voltage for each page number that substantially minimizes a corresponding bit error count; collecting, for each reference voltage, page numbers and corresponding substantially optimal reference voltages; and determining, for each reference voltage, a non-linear function that substantially fits a distribution of the collected page numbers and corresponding substantially optimal reference voltages, wherein a given page having a given page number is read using a plurality of parameters of the non-linear function to generate the substantially optimal reference voltage for the given page number. At least one additional page is optionally read using a mean value for the substantially optimal reference voltage for the page number of the additional page.

A controller estimates optimal read threshold values for a memory device using deep learning. The memory device includes multiple pages coupled to select word lines in a memory region. The controller performs multiple read operations on a select type of page for each word line using multiple read threshold sets, obtains fail bit count (FBC) information associated with each read operation, and determines an optimal read threshold set for each word line based on the FBC information. When optimal read threshold sets for the select word lines are different each other, the controller predicts a best read threshold set using the optimal read threshold sets.

A memory system includes: a semiconductor memory device; and a controller. When receiving the first read instruction, the semiconductor memory device issues a strobe signal at a first timing to read data from the first memory cell and the second memory cell. When receiving the second read instruction, the semiconductor memory device sets the first memory cell to a non-read target and reads data from the second memory cell based on a strobe result of the data at the first timing.

Techniques are provided for adaptive read threshold voltage tracking with gap estimation between default read threshold voltages. A read threshold voltage for a memory is adjusted by estimating a gap between two adjacent default read threshold voltages using binary data from the memory, wherein the gap is estimated using statistical characteristics of at least one of two adjacent memory levels of the memory; computing an adjusted read threshold voltage associated with the two adjacent memory levels by using the statistical characteristics of the two adjacent memory levels and the gap; and updating the read threshold voltage with the adjusted read threshold voltage. Pages of the memory are optionally read at multiple read threshold offset locations to obtain disparity statistics, which can be used to estimate mean and/or standard deviation values for a given memory level. The gap is optionally estimated using the mean and/or standard deviation values.