A method for performing an in-memory computation includes: storing data in memory cells of a memory array, the data including weights for computation; determining whether an update command to change at least one of the weights is received; in response to receiving the update command, performing a write operation on the memory array to update the at least one weight; and disabling the write operation on the memory array until receiving a next update command to change the at least one weight.

Methods, systems, and devices for activate commands for memory preparation are described. A memory device may receive an activate command for a row of a memory bank in the memory device. The activate command may include an indicator that indicates a type of an access operation associated with the activate command. The memory device may perform, based on the type of the access operation, an operation to prepare the memory device for the access operation. The memory device may then receive an access command for the access operation after performing the operation to prepare the memory device for the access operation.

An apparatus including reconfigurable interface circuits and associated systems and methods are disclosed herein. An reconfigurable interface circuit may include an output buffer and an input buffer coupled to a connector for respectively generating and receiving signals. The reconfigurable interface circuit may include a control circuit configured to control operation of the input and output buffers along with additional circuits to selectively implement one or more from a set of selectable communication settings.

The present technology includes a memory device. The memory device includes memory cells, page buffers configured to store sensed data obtained from the memory cells, a current sensing circuit configured to compare a sensed voltage generated according to the sensed data and a reference voltage generated according to an allowable fail bit code, and output a pass signal or a fail signal according to a comparison result, and a fail bit manager configured to increase an allowable number of fail bits included in the allowable fail bit code until the pass signal is output from the current sensing circuit, change the allowable fail bit code according to the allowable number of fail bits, and provide the allowable fail bit code to the current sensing circuit.

A method described herein involves identifying a first time associated with a read operation that retrieves data of a write unit at a memory sub-system, identifying a second time associated with a write operation that stored the data of the write unit at the memory sub-system, and performing a refresh operation for the data of the write unit at the memory sub-system based on a difference between the first time associated with the read operation and the second time associated with the write operation.

Methods, systems, and devices for selective access for grouped memory dies are described. A memory device may be configured with a select die access protocol for a group of memory dies that share a same channel. The protocol may be enabled by one or more commands from the host device, which may be communicated to each of the memory dies of the group via the channel. The command(s) may indicate a first set of one or more memory dies of the group for which a set of commands may be enabled and may also indicate a second set of one or more memory dies of the group for which at least a subset of the set of commands is disabled. When the select die access mode is enabled, the disabled memory dies may be restricted from performing the subset of commands received via the channel.

A memory device includes: a memory cell array; a first latch; a second latch; a first circuit; and a second circuit. The memory cell array includes first, second, and third columns associated with first, second, and third addresses, respectively. The first latch stores the first address and is associated with a fourth address. The second latch stores the second address and is associated with a fifth address. The fourth address and the fifth address are in an ascending order. The first circuit selects the third column in place of the first column based on the first address. The second circuit determines whether or not the first address and the second address are in an ascending order.

A storage apparatus includes an interface and storage circuitry. The interface communicates with a plurality of memory cells, and an individual one of the plurality of memory cells stores data in multiple programming levels. The storage circuitry configured to program data to a first group of multiple memory cells in a number of programming levels larger than two, using a One-Pass Programming (OPP) scheme that results in a first readout reliability level. After programming the data, the storage circuitry is further configured to read the data from the first group, and program the data read from the first group to a second group of the memory cells, in a number of programming levels larger than two, using a Multi-Pass Programming (MPP) scheme that results in a second readout reliability higher than the first reliability level, and reading the data from the second group of the memory cells.

A method for writing to a non-volatile electronic memory with data words and assigned pieces of index information. The non-volatile electronic memory is initially filled exclusively with empty data frames. The empty data frames are overwritable with multi-data frames and/or individual data frames. A multi-data frame includes a selectable number of sequentially stored data words, and a multi-data frame header. A frame-type marker, the number of data words, and a selectable start index are stored in the multi-data frame header so that each data word is assignable a unique index value from an index interval by incrementing or decrementing. An individual data frame includes one data word and an individual data frame header. A frame-type marker and a selectable index value for the one data word of the individual data frame are stored in the individual data frame header.

1. The present disclosure is drawn to, among other things, a method for accessing memory using dual standby modes, the method including receiving a first standby mode indication selecting a first standby mode from a first standby mode or a second standby mode, configuring a read bias system to provide a read bias voltage and a write bias system to provide approximately no voltage, or any voltage outside the necessary range for write operation, based on the first standby mode, receiving a second standby mode indication selecting the second standby mode, and configuring the read bias system to provide at least the read bias voltage and the write bias system to provide a write bias voltage based on the second standby mode, the read bias voltage being lower than the write bias voltage.