Various embodiments relate to a memory controller, including: a memory interface connected to a memory; an address and command logic connected to the memory interface and a command interface, wherein the address and control logic is configured to receive a memory read request; a memory scrubber configured to cycle through memory locations and to read data from those locations; a region selector configured to determine when a memory location read by the memory scrubber is within an integrity checked memory region; a runtime integrity check (RTIC) engine connected to a read data path of the memory interface, wherein the RTIC engine is configured to calculate an integrity check value for the RTIC region using data read from the checked memory region by the memory scrubber; and a RTIC controller configured to compare the calculated integrity check value for the checked memory region to a reference integrity check value for the checked memory region.

In some examples, a system detects recovery, from an unavailable state, of a communication link between a first storage system that includes a first storage volume and a second storage system that includes a second storage volume that is to be a synchronized version of the first storage volume, where while the communication link is in the unavailable state the second storage volume is in an offline state and the first storage volume is in an online state. In response to detecting the recovery of the communication link, the system sends a first tracking metadata for the first storage volume from the first storage system to the second storage system, and in response to receipt of the first tracking metadata at the second storage system that maintains a second tracking metadata for the second storage volume, the system transitions the second storage volume from the offline state to a controlled online state, and initiates a synchronization process to synchronize the second storage volume with the first storage volume.

A method of operating a host device to control a storage device which includes a register is provided. The method includes: providing the storage device with a partial array refresh setting indicating a non-masking segment among a masking segment and the non-masking segment; providing a refresh command to the storage device; and providing a write command for the masking segment to the storage device to control the storage device to store data while a partial array refresh is performed in the storage device based on the refresh command.

A system includes a memory device, and a processing device, operatively coupled to the memory device, to perform operations including receiving a request to sequentially write data to a block of a memory device, in response to receiving the request, writing the data to the block to obtain sequentially written data, initiating accumulation of logical-to-physical (L2P) mapping data corresponding to the sequentially written data, determining that a criterion for terminating the accumulation of the L2P mapping data is satisfied, in response to determining that the criterion is satisfied, terminating the accumulation of the L2P mapping data to obtain accumulated L2P mapping data, and updating an L2P mapping data structure based on the accumulated L2P mapping data.

Methods, systems, and devices for dynamic status registers array are described. An apparatus may include one or more memory dice coupled with a data bus. The apparatus may further include a controller coupled with each of the memory dice via the data bus that is configured to transmit a first command associated with a first operation to a first memory die. The first command may assign an associated operation (e.g., the first operation) to a queue slot of a status bank that is associated with at least the first memory die. The controller may further transmit second command to the first memory die to request a status of the first operation. The controller may receive a status of the first operation via a channel (e.g., a first channel) of the data bus that is based on the assigned queue slot of the status bank.

Example implementations include a non-transitory processor-readable media comprising processor-readable instructions that when executed by at least one processor of a controller, causes the processor to generate at least one memory address corresponding respectively to at least one command block, the command block being associated with a command to a memory device, allocate the memory address to a buffer addressing unit associated with a host interface, the memory address including a buffer memory identifier associated with a buffer memory block and a buffer memory address associated with the buffer memory block, and update a request count associated with the buffer memory block by incrementing a reference counter associated with the buffer memory block.

A Near Memory Processing (NMP) module including: a plurality of memory units: an Input/Output (I/O) interface configured to receive commands from a host system, wherein the host system includes a host memory controller configured to access the plurality of memory units: a decoder configured to decode the commands and generate a trigger; and an NMP memory controller configured to: receive the trigger from the decoder; and generate a signal in response to the trigger to synchronize the NMP module with the host system.

Methods, systems, and devices for memory operations are described. A first set of commands may be received for accessing a memory device. The first set of commands may include non-consecutive logical addresses that correspond to consecutively indexed physical addresses. A determination that the non-consecutive logical addresses correspond to consecutively indexed physical addresses may be determined based on a first mapping stored in a volatile memory. A second mapping may be transferred to the volatile memory based on the determination. The second mapping may include an indication of whether information stored at a set of physical address is valid. A second set of commands including non-consecutive logical addresses may be received for accessing the memory device. Data for the second set of commands that include the non-consecutive logical addresses may be retrieved from the memory device using the second mapping.

Example implementations can involve a system, which can involve a server configured to distribute role decision condition expressions created based on user input to one or more storage devices; and the one or more storage devices, which can involve a processor, configured to, for receipt of a request, determine user identification information, request source environment information and requested contents from the request; determine a role from the role decision condition expressions based on the user identification information and request source environment information; and determine whether or not the request can be executed based on the role.

Example implementations described herein involve systems and methods which automatically determine volumes to be replicated for disaster recovery based on the execution priority of an application which uses the volumes. Such example implementations can involve systems and methods involving creating a volume in a first storage system for each of one or more containers newly launched on one or more servers managing a container orchestrator; and establishing replication of the volume for the each of the newly launched one or more containers to a second storage system in order from highest container priority to lowest container priority.