A system includes a memory array of sub-blocks, each sub-block including groups of memory cells, and a processing device. The processing device causes a first wordline to be programmed through the sub-blocks with a mask by causing to be programmed, to a first voltage level: a first group of memory cells of a first sub-block; and a second group of memory cells of a second sub-block. The processing device further scans a second wordline that has been programmed and is coupled to the first wordline, scanning includes: causing a custom wordline voltage to be applied to the second wordline, the custom wordline voltage to select groups of memory cells corresponding to those of the first wordline programmed to the first voltage level; concurrently reading data from the selected groups of memory cells of the second wordline; and performing, using the data, an error check of the second wordline.

There are provided a memory device for supporting a command bus training (CBT) mode and a method of operating the same. The memory device is configured to enter a CBT mode or exit from the CBT mode in response to a logic level of a first data signal, which is not included in second data signals, which are in one-to-one correspondence with command/address signals, which are used to output a CBT pattern in the CBT mode. The memory device is further configured to change a reference voltage value in accordance with a second reference voltage setting code received by terminals associated with the second data signals, to terminate the command/address signals or a pair of data clock signals to a resistance value corresponding to an on-die termination (ODT) code setting stored in a mode register, and to turn off ODT of data signals in the CBT mode.

A read disturb information determination system includes a storage device coupled to a global read temperature identification system. The storage device reads, from a first row in a storage subsystem in the storage device, data stored in bits that were previously identified as being susceptible to read disturb effects, and error correction information associated with the data. The storage device uses the error correction information to identify a number of the bits that store portions of the data with errors and, based on the number of bits that store portions of the data with errors, determines read disturb information for the first row in the storage subsystem in the storage device. The storage device then uses the read disturb information to generate a read temperature for a second row in the storage subsystem in the storage device, and provides the read temperature to the global read temperature identification system.

A read disturb information determination system includes a storage device coupled to a global read temperature identification system. The storage device reads, from a first row in a storage subsystem in the storage device, data stored in bits that were previously identified as being susceptible to read disturb effects, and error correction information associated with the data. The storage device uses the error correction information to identify a number of the bits that store portions of the data with errors and, based on the number of bits that store portions of the data with errors, determines read disturb information for the first row in the storage subsystem in the storage device. The storage device then uses the read disturb information to generate a read temperature for a second row in the storage subsystem in the storage device, and provides the read temperature to the global read temperature identification system.

The present disclosure relates to integrated circuits, and more particularly, to a wordline system architecture supporting an erase operation and current-voltage (I-V) characterization and methods of manufacture and operation. In particular, the present disclosure relates to a structure including: a twin cell circuit which is connected to a wordline of a memory array; a sourceline driver which is connected to a sourceline of the memory array for providing a cell level current-voltage (I-V) access of the twin cell circuit; and an integrated analog multiplexor which is connected to the twin cell circuit.

A method includes determining that a ratio of valid data portions to a total quantity of data portions of a block of memory cells is greater than or less than a valid data portion threshold and determining that health characteristics for the valid data portions of the block of memory cells are greater than or less than a valid data health characteristic threshold. The method further includes performing a first media management operation on the block of memory cells in response to determining that the ratio of valid data portions to the total quantity of data portions is greater than the valid data portion threshold and performing a second media management operation on at least a portion of the block of memory cells in response to determining that the ratio of valid data portions to the total quantity of data portions is less than the valid data portion threshold and the health characteristics for the valid data portions are greater than the valid data health characteristic threshold.

Techniques for estimating raw bit error rate of data stored in a group of memory cells are described. Encoded data is read from a group of memory cells. A first population value is obtained based on a first number of memory cells in the group of memory cells having a read voltage within a first range of read voltages, each read voltage representing one or more bits of the encoded data. An estimated raw bit error rate of the data is determined to satisfy a first threshold. The determination is made using a first trained machine learning model and based in part on the first population value. A first media management operation is initiated in response to the determination that the estimated raw bit error rate satisfies the first threshold.

Techniques for estimating raw bit error rate of data stored in a group of memory cells are described. Encoded data is read from a group of memory cells. A first population value is obtained based on a first number of memory cells in the group of memory cells having a read voltage within a first range of read voltages, each read voltage representing one or more bits of the encoded data. An estimated raw bit error rate of the data is determined to satisfy a first threshold. The determination is made using a first trained machine learning model and based in part on the first population value. A first media management operation is initiated in response to the determination that the estimated raw bit error rate satisfies the first threshold.

Apparatuses, systems, and methods for self-test mode abort circuit. Memory devices may enter a self-test mode and perform testing operations on the memory array. During the self-test mode, the memory device may ignore external communications. The memory includes an abort circuit which may terminate the self-test mode if it fails to properly finish. For example, the abort circuit may count an amount of time since the self-test mode began and end the self-test mode if that amount of time meets or exceeds a threshold, which may be based off of the expected amount of time for the testing operations to complete.

Disclosed is a system that comprises a memory device and a processing device, operatively coupled with the memory device, to perform operations that include, identifying a block family comprising a plurality of blocks of the memory device. The operations performed by the processing device further include associating the block family with a threshold voltage offset. The operations performed by the processing device further include computing an adjustment value of the threshold voltage offset, wherein the adjustment value reflects a time period that has elapsed since a triggering event and a temperature of a memory component carrying one or more blocks of the plurality of blocks.