Methods, systems, and devices for vertical transistor fuse latches are described. An apparatus may include a substrate and a memory array that is coupled with the substrate. The apparatus may also include a latch that is configured to store information from a fuse for the memory array. The latch may be at least partially within an additional substrate separate from and above the substrate. The latch may include a quantity of p-type vertical transistors and a quantity of n-type vertical transistors each at least partially disposed within the additional substrate above the substrate.

A processing device of a memory sub-system is configured to determine, for a memory unit of the memory device, a plurality of write disturb counts associated with the memory unit, wherein each of the plurality of write disturb (WD) count is associated with a corresponding write disturb direction; compute, for the memory unit, a weighted WD count reflecting the plurality of write disturb counts; determine whether the weighted WD count meets a criterion; and responsive to determining that the weighted WD count meets the criterion, perform a refresh operation on the memory unit.

A processing device of a memory sub-system is configured to determine, for a memory unit of the memory device, a plurality of write disturb counts associated with the memory unit, wherein each of the plurality of write disturb (WD) count is associated with a corresponding write disturb direction; compute, for the memory unit, a weighted WD count reflecting the plurality of write disturb counts; determine whether the weighted WD count meets a criterion; and responsive to determining that the weighted WD count meets the criterion, perform a refresh operation on the memory unit.

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.

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.

A memory device including: a memory cell array including memory cell rows; and a control logic circuit to perform a row, write, read, or pre-charge operation on the memory cell rows in response to an active, write, read, or pre-charge command, wherein the control logic circuit is further configured to: calculate a first count value by counting the active command and a second count value by counting the write command or the read command, with respect to a first memory cell row, during a row hammer monitor time frame; determine a type of row hammer of the first memory cell row based on a ratio of the first count value to the second count value; and adjust a pre-charge preparation time between an active operation and the pre-charge operation, by changing a pre-charge operation time point according to the determined type of row hammer.

A memory device including: a memory cell array including memory cell rows; and a control logic circuit to perform a row, write, read, or pre-charge operation on the memory cell rows in response to an active, write, read, or pre-charge command, wherein the control logic circuit is further configured to: calculate a first count value by counting the active command and a second count value by counting the write command or the read command, with respect to a first memory cell row, during a row hammer monitor time frame; determine a type of row hammer of the first memory cell row based on a ratio of the first count value to the second count value; and adjust a pre-charge preparation time between an active operation and the pre-charge operation, by changing a pre-charge operation time point according to the determined type of row hammer.

A memory controller component of a memory system stores memory access requests within a transaction queue until serviced so that, over time, the transaction queue alternates between occupied and empty states. The memory controller transitions the memory system to a low power mode in response to detecting the transaction queue is has remained in the empty state for a predetermined time. In the transition to the low power mode, the memory controller disables oscillation of one or more timing signals required to time data signaling operations within synchronous communication circuits of one or more attached memory devices and also disables one or more power consuming circuits within the synchronous communication circuits of the one or more memory devices.

A memory controller component of a memory system stores memory access requests within a transaction queue until serviced so that, over time, the transaction queue alternates between occupied and empty states. The memory controller transitions the memory system to a low power mode in response to detecting the transaction queue is has remained in the empty state for a predetermined time. In the transition to the low power mode, the memory controller disables oscillation of one or more timing signals required to time data signaling operations within synchronous communication circuits of one or more attached memory devices and also disables one or more power consuming circuits within the synchronous communication circuits of the one or more memory devices.

The present disclosure includes apparatuses and methods related to bank coordination in a memory device. A number of embodiments include a method comprising concurrently performing a memory operation by a threshold number of memory regions, and executing a command to cause a budget area to perform a power budget operation associated with the memory operation.