Various examples described herein are directed to systems and methods for generating data values using a NAND flash array. A memory controller may read a number of memory cells at the NAND flash array using an initial read level to generate a first raw string. The memory controller may determine that a difference between a number of bits from the first raw string having a value of logical zero and a number of bits from the first raw string having a value of logical one is greater than a threshold value and read the number of memory cells using a second read level to generate a second raw string. The memory controller may determine that a difference between a number of bits from the second raw string having a value of logical zero and a number of bits from the second raw string having a value of logical one is not greater than a threshold value and applying a cryptographic function using the second raw string to generate a first PUF value.

A variety of applications can include memory devices designed to provide stabilization of selector devices in a memory array of the memory device. A selector stabilizer pulse can be applied to a selector device of a string of the memory array and to a memory cell of multiple memory cells of the string with the memory cell being adjacent to the selector device in the string. The selector stabilizer pulse can be applied directly following an erase operation to the string to stabilize the threshold voltage of the selector device. The selector stabilizer pulse can be applied as part of the erase algorithm of the memory device. Additional devices, systems, and methods are discussed.

A variety of applications can include memory devices designed to provide stabilization of selector devices in a memory array of the memory device. A selector stabilizer pulse can be applied to a selector device of a string of the memory array and to a memory cell of multiple memory cells of the string with the memory cell being adjacent to the selector device in the string. The selector stabilizer pulse can be applied directly following an erase operation to the string to stabilize the threshold voltage of the selector device. The selector stabilizer pulse can be applied as part of the erase algorithm of the memory device. Additional devices, systems, and methods are discussed.

Described herein are embodiments related to first-pass continuous read level calibration (cRLC) operations on memory cells of memory systems. A processing device determines that a first programming pass of a programming operation has been performed on a memory cell of a memory component. The processing device performs a cRLC operation on the memory cell to calibrate a read level threshold between a first first-pass programming distribution and a second first-pass programming distribution before a second programming pass of the programming operation is performed on the memory cell.

A memory apparatus and method of operation are provided. The apparatus includes memory cells connected to one of a plurality of word lines and arranged in strings and configured to retain a threshold voltage corresponding to one of a plurality of memory states. A control circuit is coupled to the plurality of word lines and strings and is configured to erase the memory cells using a stripe erase operation in response to determining a cycle count is less than a predetermined cycle count maximum threshold. The control circuit is also configured to perform a dummy cycle operation in response to determining the cycle count is not less than the predetermined cycle count maximum threshold.

A memory apparatus and method of operation are provided. The apparatus includes memory cells connected to one of a plurality of word lines and arranged in strings and configured to retain a threshold voltage corresponding to one of a plurality of memory states. A control circuit is coupled to the plurality of word lines and strings and is configured to erase the memory cells using a stripe erase operation in response to determining a cycle count is less than a predetermined cycle count maximum threshold. The control circuit is also configured to perform a dummy cycle operation in response to determining the cycle count is not less than the predetermined cycle count maximum threshold.

Described are systems and methods for reducing maximum programming voltage in memory programming operations. An example memory device comprises: a memory array comprising a plurality of memory cells electrically coupled to a plurality of wordlines and a plurality of bitlines; and a controller coupled to the memory array, the controller to perform operations comprising: identifying one or more memory cells for performing a memory programming operation, wherein the memory cells are electrically coupled to a target wordline and one or more target bitlines; causing drain-side select gates and source-side select gates of the memory array to be turned off; causing unselected wordlines of the memory array to discharge to a predefined voltage level; and causing one or more programming voltage pulses to be applied to the target wordline.

Described are systems and methods for reducing maximum programming voltage in memory programming operations. An example memory device comprises: a memory array comprising a plurality of memory cells electrically coupled to a plurality of wordlines and a plurality of bitlines; and a controller coupled to the memory array, the controller to perform operations comprising: identifying one or more memory cells for performing a memory programming operation, wherein the memory cells are electrically coupled to a target wordline and one or more target bitlines; causing drain-side select gates and source-side select gates of the memory array to be turned off; causing unselected wordlines of the memory array to discharge to a predefined voltage level; and causing one or more programming voltage pulses to be applied to the target wordline.

A memory device, a system, and a method for operating the memory device are provided. The memory device includes a first memory string and a peripheral circuit. The first memory string includes a first drain, a first drain select gate (DSG) transistor, a first drain dummy transistor between the first drain and the first DSG transistor, and a plurality of first memory cells. A first drain dummy line is coupled to the first drain dummy transistor, and a first DSG line is coupled to the first DSG transistor. The peripheral circuit is configured to, in a program operation, apply a first DSG voltage to the first DSG line and apply a first drain dummy line voltage to the first drain dummy line to turn on the first drain dummy transistor. The first drain dummy line voltage is greater than the first DSG voltage

A memory device, a system, and a method for operating the memory device are provided. The memory device includes a first memory string and a peripheral circuit. The first memory string includes a first drain, a first drain select gate (DSG) transistor, a first drain dummy transistor between the first drain and the first DSG transistor, and a plurality of first memory cells. A first drain dummy line is coupled to the first drain dummy transistor, and a first DSG line is coupled to the first DSG transistor. The peripheral circuit is configured to, in a program operation, apply a first DSG voltage to the first DSG line and apply a first drain dummy line voltage to the first drain dummy line to turn on the first drain dummy transistor. The first drain dummy line voltage is greater than the first DSG voltage