The present disclosure includes apparatuses and methods for performing operations by a memory device in a self-refresh state. An example includes an array of memory cells and a controller coupled to the array of memory cells. The controller is configured to direct performance of compute operations on data stored in the array when the array is in a self-refresh state.

A memory device may enforce compliance with a refresh command requirement in some examples. When a controller fails to comply with the refresh command requirement, the memory device may prevent the controller from accessing a memory array. The controller may regain access by providing one or more commands, such as a refresh command. In some examples, the memory may enforce compliance with a refresh command requirement responsive to a value written to the mode register. In some examples, the memory may enforce compliance with the refresh command requirement after an initialization operation has completed.

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.

A semiconductor memory device including a weak cell storage circuit suitable for programming therein weak cell information, and outputting the weak cell information in an initialization operation; a cell array region including a first cell region which stores the weak cell information received from the weak cell storage circuit, in the initialization operation; a refresh address generation block suitable for generating a refresh address by counting a refresh signal, and outputting a weak cell address corresponding to the weak cell information outputted from the first cell region, as the refresh address, with a predetermined cycle; and a refresh circuit suitable for performing a refresh operation for a word line corresponding to the refresh address, among a plurality of word lines.

A memory device may include: a memory region including a plurality of word lines, a self-refresh command generation circuit suitable for generating self-refresh commands for each predetermined interval during a self-refresh period, a refresh check circuit suitable for generating a ratio signal by checking a ratio which word lines refreshed in response to the self-refresh commands occupy among the plurality of word lines, a ratio adjustment circuit suitable for adjusting, among a plurality of auto-refresh commands inputted from an external device during an auto-refresh period, a ratio of to-be-applied commands, which are to be used for a refresh operation, to to-be-skipped commands, which are to be skipped for the refresh operation, according to the ratio signal, and a refresh operation circuit suitable for performing the refresh operation on the plurality of word lines in response to the self-refresh commands and the to-be-applied commands.

A refresh control device, and a memory device may be provided. The latch controller may include a first oscillator configured to generate a first oscillation signal, and a second oscillator configured to generate a second oscillation signal. The latch controller may be configured to receive a precharge signal and prevent the second oscillation signal from being synchronized with the precharge signal.

Methods, apparatuses, and systems related to managing operations performed in response to refresh management (RFM) commands A controller generates the RFM command for coordinating a refresh management operation targeted for implementation at an apparatus. The apparatus tracks refresh target set that includes refresh management target locations within the apparatus. According to the tracked refresh management target set, the apparatus selectively implements the targeted refresh management operation and/or a response operation in addition to or as a replacement for the targeted refresh management operation.

A system includes a memory controller and a memory device having a command interface and a plurality of memory banks, each with a plurality of rows of memory cells. The memory controller transmits an auto-refresh command to the memory device. Responsive to the auto-refresh command, during a first time interval, the memory device performs refresh operations to refresh the memory cells and the command interface of the memory device is placed into a calibration mode for the duration of the first time interval. Concurrently, during at least a portion of the first time interval, the memory controller performs a calibration of a data interface circuit of the memory device. The auto-refresh command may specify an order in which memory banks of the memory device are to be refreshed, such that the memory device sequentially refreshes a respective row in the plurality of memory banks in the specified bank order.

According to various aspects, a memory controller may schedule ZQ commands to periodically calibrate individual memory ranks in a multi-rank memory. The memory controller may schedule a ZQ short command at each ZQ interval and record that the ZQ short command was missed with respect to a memory rank in a self-refresh mode at the ZQ interval. After the missed ZQ short commands reaches a first threshold, a ZQ long command may be scheduled at the next ZQ interval and normal ZQ behavior may resume in the event that the memory rank exits the self-refresh mode and the ZQ long command is executed. However, if the memory rank stays in the self-refresh mode until missed ZQ long commands reaches a second threshold, the memory controller may trigger a ZQ long command once the memory rank exits the self-refresh mode and skip a next ZQ calibration before resuming normal ZQ behavior.

To perform refresh without saving data, and prevent corruption of data in non-volatile memories. A number-of-write-operations information holding unit holds number-of-write-operations information, which is the number of write operations of a non-volatile memory to which access is made in units of pages which are divided by a page size. A determination unit determines whether or not refresh, which is reversing of values of all memory cells constituting the pages, is necessary on the basis of the held number-of-write-operations information. A write control unit further performs the refresh in addition to writing when the refresh is necessary on the basis of a result of the determination at a time of the writing with respect to the pages.