A memory controller receives a command to program information to a memory storage array controlled by the memory controller. The memory controller determines a target memory state to store the information, and a target threshold voltage level corresponding to the target memory state. Based at least on the target memory state, the memory controller determines one or more program pulses for a pre-program cycle, including voltage levels for the one or more program pulses based at least on the target threshold voltage level. The memory controller selects a memory location in the memory storage array to program the information, and pre-programs the selected memory location by applying the one or more program pulses at respective voltage levels, the one or more program pulses applied without program verify operations. Following the pre-programming, the memory controller programs the information to the selected memory location.

A system comprising includes a memory device having memory cells a processing device, operatively coupled to the memory device. The processing device is to perform operations including: determining a length of time the memory device has been powered off; and in response to determining that the length of time satisfies a threshold value: for each of multiple groups of memory cells, asserting a corresponding flag; determining, based on the length of time, one or more adjusted demarcation voltages to be used in reading a state of the multiple groups of memory cells; and storing the one or more adjusted demarcation voltages for use in performing memory operations.

Provided are a memory device storing setting data and a memory system including the same. The memory device may include a cell array including a plurality of cell blocks, each including a plurality of pages, and a control logic that controls a program and read operation on the cell array, wherein at least one page of the cell array stores information data read (IDR) data including information related to a setting operation of the memory device, at least one other page of the cell array stores replica IDR data including inverted bit values of the IDR data, and the control logic controls a recovery operation for repairing errors in the IDR data by reading the replica IDR data when a read fail of the IDR data occurs.

A memory device includes a common source line, a memory cell array, bit lines, and a conductive layer. The common source line is formed on a substrate. The memory cell array is formed on the common source line. The bit lines are connected to the memory cell array. The conductive layer is formed over the bit lines. In an erase operation, the memory device increases a voltage of the bit lines to an erase voltage through capacitive coupling by increasing a voltage applied to the conductive layer.

A memory device includes a common source line, a memory cell array, bit lines, and a conductive layer. The common source line is formed on a substrate. The memory cell array is formed on the common source line. The bit lines are connected to the memory cell array. The conductive layer is formed over the bit lines. In an erase operation, the memory device increases a voltage of the bit lines to an erase voltage through capacitive coupling by increasing a voltage applied to the conductive layer.

Apparatus might include an array of memory cells and a controller to perform access operations on the array of memory cells. The controller might be configured to establish a negative potential in a body of a memory cell of the array of memory cells, and initiate a sensing operation on the memory cell while the body of the memory cell has the negative potential. Apparatus might further include an array of memory cells, a timer, and a controller to perform access operations on the array of memory cells. The controller might be configured to advance the timer, and establish a negative potential in a body of a memory cell of the array of memory cells in response to a value of the timer having a desired value.

Apparatus might include an array of memory cells and a controller to perform access operations on the array of memory cells. The controller might be configured to establish a negative potential in a body of a memory cell of the array of memory cells, and initiate a sensing operation on the memory cell while the body of the memory cell has the negative potential. Apparatus might further include an array of memory cells, a timer, and a controller to perform access operations on the array of memory cells. The controller might be configured to advance the timer, and establish a negative potential in a body of a memory cell of the array of memory cells in response to a value of the timer having a desired value.

Stochastic or near-stochastic physical characteristics of resistive switching devices are utilized for generating data distinct to those resistive switching devices. The distinct data can be utilized for applications related to electronic identification. As one example, data generated from physical characteristics of resistive switching devices on a semiconductor chip can be utilized to form a distinct identifier sequence for that semiconductor chip, utilized for verification applications for communications with the semiconductor chip or utilized for generating cryptographic keys or the like for cryptographic applications.

A semiconductor storage device includes a semiconductor pillar, a first string having first memory cells connected in series, first word lines connected to the first memory cells, a second string having second memory cells connected in series, and second word lines connected to the second memory cells. Each of the first memory cells faces, and shares a channel in the semiconductor pillar with, one of the second memory cells. When reading data of the k-th first memory cell, a voltage of the first word line connected to the k-th first memory cell reaches a first voltage at a first timing, and a voltage of the second word line connected to at least one of the second memory cells other than the k-th second memory cell in the second string facing the k-th first memory cell reaches the first voltage at a second timing that is later than the first timing.

A semiconductor storage device includes a semiconductor pillar, a first string having first memory cells connected in series, first word lines connected to the first memory cells, a second string having second memory cells connected in series, and second word lines connected to the second memory cells. Each of the first memory cells faces, and shares a channel in the semiconductor pillar with, one of the second memory cells. When reading data of the k-th first memory cell, a voltage of the first word line connected to the k-th first memory cell reaches a first voltage at a first timing, and a voltage of the second word line connected to at least one of the second memory cells other than the k-th second memory cell in the second string facing the k-th first memory cell reaches the first voltage at a second timing that is later than the first timing.