Multiple embodiments are disclosed for enhancing security and preventing hacking of a flash memory device. The embodiments prevent malicious actors from hacking a flash memory chip to obtain data that is stored within the chip. The embodiments include the use of fault detection circuits, address scrambling, dummy arrays, password protection, improved manufacturing techniques, and other mechanisms.

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 controller for controlling a memory device comprising a plurality of multi-level cell memory blocks, the controller includes: a processor suitable for controlling the memory device to perform a read operation on a target logical page using some of the plurality of read voltages in a selected read voltage set; and an error correction code (ECC) component suitable for determining whether the read operation is successful, by performing error detection and correction on data generated in the read operation and output from the memory device, wherein, when the read operation is determined to be successful, the processor updates the selected read voltage set with the read voltages used in the read operation when it is successful and estimated values of unused read voltages of the selected read voltage set, the estimated values being determined based on the used read voltages.

A method for measuring interference in a memory device is provided. The method includes: programming a selected memory cell among a plurality of memory cells connected in series between a bit line and a source line; measuring a first noise value of the programmed selected memory cell; programming an adjacent memory cell adjacent to the selected memory cell among the plurality of memory cells; measuring a second noise value of the selected memory cell, after the programming of the adjacent memory cell is completed; and determining interference on the selected memory cell based on the first noise value and the second noise value. The first noise value and the second noise value are measured by detecting a low frequency noise of a cell current of the selected memory cell.

A highly read data manager of a memory device receives a request to perform receives a request to perform a data relocation operation on a first wordline of a plurality of wordlines for a memory device, the memory device comprising a plurality of multi-level memory cells, wherein each multi-level memory cell comprises a plurality of pages; determines at the first wordline comprises data stored at one or more high read disturb pages of the plurality of pages; determines whether the data comprises a characteristic that satisfies a threshold criterion in relation to additional data stored on additional wordlines of the plurality of wordlines; responsive to determining that the data comprises the characteristic that satisfies the threshold criterion, identifies one or more low read disturb pages of the plurality of pages of a target wordline for relocating the data; and responsive to identifying the one or more low read disturb pages of the target wordline, stores at least a portion of the data at the one or more low read disturb pages of the target wordline.

A value-voltage-distribution-intersection-based read disturb information determination system includes a storage device coupled to a global read temperature identification system. The storage device identifies a value voltage distribution intersection of first and second value voltage distributions for respective first and second values in a first row in a storage subsystem in the storage device, and determines a default value voltage reference shift between a default value voltage reference level associated with the first value and the second value and the value voltage distribution intersection. Based on the default value voltage reference shift, the storage device determines read disturb information for the first row in the storage subsystem in the storage device, and uses it to generate a read temperature for a second row in the storage subsystem in the storage device that it provides to the global read temperature identification system.

A memory system includes a nonvolatile memory configured to execute one of a plurality of read operations, including a first read operation and a second read operation, and a memory controller configured to issue a read command to the nonvolatile memory to cause the nonvolatile memory to execute one of the plurality of read operations. The memory controller is configured to receive a read request, estimate a reliability level of a result of a read operation to be executed by the nonvolatile memory to read data from a physical address specified in the read request, select one of the first and second read operations to be executed first in a read sequence corresponding to the read request by the nonvolatile memory based on the estimated reliability level, and instruct the nonvolatile memory to execute the selected read operation.

A risk assessment method based on data priority, a memory storage device, and a memory control circuit unit are provided. The method includes: receiving a query command from a host system; in response to the query command, performing a data health detection on a rewritable non-volatile memory module, wherein the rewritable non-volatile memory module stores data with multiple data priorities; generating risk assessment information according to a detection result, wherein the risk assessment information reflects a health degree of data with different data priorities in the rewritable non-volatile memory modules by different risk levels; and transmitting the risk assessment information to the host system.

A measure associated with a characteristic of a die of a memory device is obtained. It is determined whether the measure satisfies a first criterion to group one or more die into a first die family. If it is determined that the measure satisfies the first criterion, the die is associated with the first die family.

A data storage device including, in one implementation, a non-volatile memory and a controller. The non-volatile memory includes a memory block. The memory block includes a plurality of word lines that are written sequentially from a first end of the memory block to a second end of the memory block. The controller is coupled to the non-volatile memory. The controller is configured to determine a last written word line of the memory block. The controller is also configured to set a non-selected word line voltage based on the last written word line of the memory block. The controller is further configured to apply the non-selected word line voltage to non-selected word lines of the memory block.