The present application relates to the technical field of memories, in particular to a flash memory programming check circuit, comprising: a memory cell, wherein a bit line is led out from the memory cell, and a pulse sequence signal with a gradually increasing voltage amplitude is applied to the bit line, so that during a high level period of the pulse sequence signal, the memory cell undergoes a program operation, and during a low level period of the pulse sequence signal, the memory cell undergoes a read detection operation; a pulse sequence generation unit used to generate the pulse sequence signal with a gradually increasing voltage amplitude to the bit line; and a reset unit used to control, when a programming control signal starts to be generated, a voltage of the bit line to drop.

Disclosed herein is an apparatus that includes a plurality of memory banks and a refresh controller configured to perform a refresh operation on one or more of the plurality of memory banks having a first state without performing the refresh operation on one or more of the plurality of memory banks having a second state responsive to a first refresh command, and perform the refresh operation on a selected one of the plurality of memory banks responsive to a second refresh command. The refresh controller is configured to bring the selected one of the plurality of memory banks into the second state when the refresh operation is performed responsive to the second refresh command.

A memory package includes; a first memory chip including first memory pads, and a buffer chip including first buffer pads respectively connected with the first memory pads and second buffer pads connected with an external device. The buffer chip respectively communicates signals received via the second buffer pads to the first buffer pads in response to a swap enable signal having a disabled state, and the buffer chip swaps signals received via the second buffer pads to generate first swapped signals, and respectively communicates the first swapped signals to the first buffer pads in response to the swap enable signal having an enabled state.

A data storage device includes a controller coupled to one or more memory devices. The controller is configured to determine one or more first wordlines within the memory device that needs more than one pulse for programming and one or more second wordlines within the memory device that needs one pulse and no program verify. The locations of the one or more first wordlines and the one or more second wordlines are stored in a data structure of the memory device. During program operations, the controller utilizes the data structure to determine whether the one or more wordlines being programmed requires only one pulse and no program verify or a multi-loop program. The data structure is updated after an EPWR and/or XOR parity operation.

An electronic device includes an intelligent refresh control circuit generating an intelligent refresh pulse with a pulse that has a generation period that is adjusted based on the number of generations of an auto refresh signal during an intelligent refresh operation, and an internal refresh signal generation circuit outputting one of a self-refresh pulse including a pulse that is periodically generated by an enable signal during a self-refresh operation and the intelligent refresh pulse as an internal refresh signal.

Methods and apparatus monitor memory access activities of non-real-time processing engines to determine time intervals when the memory access activities are low. When such time intervals are found, the methods and apparatus perform burst memory access control for real-time processing engines by bursting data from a memory to a burst memory buffer, or from the burst memory buffer to the memory, to allow fast data access by the real-time processing engines.

The present disclosure generally relates to the fabrication of and methods for creating a reversible tri-state memory device which provides both forward and reverse write and read drive to a bi-directional RRAM cell, thus allowing writing in the forward and reverse directions. The memory device, however, utilizes a single transistor “on pitch” which fits between two metal lines traversing the array tile.

There is provided a storage apparatus that includes an address obtaining section, and a write processing section. The address obtaining section is configured to obtain a normal write address and an alternative write address before data writing to the normal write address, the normal write address being designated as a destination of the data writing, the alternative write address being used when the data writing is failed. The write processing section is configured to perform the data writing to the normal write address when instructed for the data writing, and perform the data writing to the alternative write address when the data writing to the normal write address is failed.

A memory circuit includes a stack of first dies including multiple sets of memory cells of a first type, a second die including multiple sets of memory cells of a second type, a third die, and an interposer carrying the first, second, and third dies. The second die includes a first set of input/output (I/O) terminals on a top surface of the second die and a second set of I/O terminals on a bottom surface of the second die. The stack of first dies is coupled to the second die through the first set of I/O terminals. The interposer is coupled to the second die through the second set of I/O terminals. The third die is positioned aside the second die and in communication with the second die through the interposer.

Apparatuses, systems, and methods are disclosed for managing configuration parameters for non-volatile data storage. A control module is configured to manage differences in one or more storage characteristics for blocks of a non-volatile memory medium within one or more established limits. A block classification module is configured to group blocks of a non-volatile memory medium based on one or more other storage characteristics. A configuration parameter module is configured to use a configuration parameter for at least one group of blocks based on a grouping. A configuration parameter update module is configured to update a configuration parameter for at least one group in response to a change in one or more managed storage characteristics.