A method for execution by a storage network begins by issuing a decode threshold number of read requests for a set of encoded data slices to a plurality of storage units of a set of storage units and continues by determining whether less than a decode threshold number of read requests has been received in a time window. The method continues by identifying one or more encoded data slices encoded data slices associated with read requests of the decode threshold number of read requests that have not been received and for an encoded data slice of the one or more encoded data slices, issuing a priority read request to a storage unit storing a copy of the encoded data slice. The method then continues by receiving a response from the storage unit storing the copy of the encoded data, where the storage unit storing the copy of the encoded data slice is adapted to delay one or more maintenance tasks in response to the priority read request.

Apparatuses for address expansion and methods of address expansion are disclosed. Memory region definitions are stored, each comprising attribute data relevant to a respective memory region. In response to reception of a first address a region identifier indicative of a memory region to which the first address belongs is provided. Cache storage stores data in association with an address tag and in response to a cache miss a data retrieval request is generated. Address expansion circuitry is responsive to the data retrieval request to initiate a lookup for attribute data relevant to the memory region to which the first address belongs. The address expansion circuitry expands the first address in dependence on a base address forming part of the attribute data to generate an expanded second address, wherein the expanded second address is part of greater address space than the first address.

Methods, computer program products, computer systems, and the like for efficient metadata management are disclosed, which can include receiving a subunit of storage, storing a first metadata portion of the subunit of storage in a first unit of storage, and storing a second metadata portion of the subunit of storage in a second unit of storage.

According to one embodiment, a controller of a memory system reorders a plurality of first write commands in an order in which writing within a first zone is executed sequentially from a next write location within the first zone. The controller transfers a plurality of write data associated with the plurality of first write commands reordered from a write buffer of a host to an internal buffer in a same order as the order of the plurality of first write commands reordered, and writes the plurality of write data transferred to the internal buffer to a first storage region managed as the first zone.

The disclosed technology relates to a system configured to detect a modification to a node in a tree data structure. The node is associated with a content item managed by a content management service as well as a filename. The system may append the filename and a separator to a filename array, determine a location of the filename in the filename array, and store the location of the filename in the node.

Disclosed is a nonvolatile memory device including a memory cell array including memory cells, bit lines and word lines connected with the memory cells, a common source line connected with the memory cells, a control logic circuit including a common source line noise control logic circuit and configured to generate voltages including a first voltage and a second voltage, a voltage selector configured to receive the voltages and configured to select at least one of the voltages, and a common source line driver configured to receive the at least one selected voltage and configured to control a voltage of the common source line, and the common source line noise control logic circuit is configured to control the voltage selector based on program information so as to select the at least one of the voltages.

The present disclosure is directed to efficient memory activation at runtime. A memory module (e.g., a memory riser) being added to a device would typically cause the device to enter system management mode (SMM) to activate the memory module. However, activation (e.g., memory module initialization, hardware training and system reconfiguration) in SMM may substantially delay the resumption of normal operations. Consistent with the present disclosure, at least the memory module initialization and hardware training portions of the activation may be performed by an operating system (OS) in the device, allowing normal device operation to continue during the activation. The OS portion of the activation may generate configuration data. In at least one embodiment, the configuration data may be applied for use in SMM. For example, a system management interrupt (SMI) handler may apply the configuration data during a quiescent period (e.g., a period of inactivity) that occurs during SMM.

Apparatuses and methods for performing concurrent memory access operations for multiple memory planes are disclosed herein. An example method may include receiving first and second command and address pairs associated with first and second plane, respectively, of a memory. The method may further include, responsive to receiving the first and second command and address pairs, providing a first and second read voltages based on first and second page type determined from the first and second command and address pair. The method may further include configuring a first GAL decoder circuit to provide one of the first read voltage or a pass voltage on each GAL of a first GAL bus. The method may further include configuring a second GAL decoder circuit to provide one of the second read level voltage signal or the pass voltage signal on each GAL of a second GAL bus coupled to the second memory plane.

Apparatuses and methods for configurable memory array bank architectures are described. An example apparatus includes a mode register configured to store information related to bank architecture and a memory array including a plurality of memory banks. The plurality of memory banks are configured to be arranged in a bank architecture based at least in part on the information related to bank architecture stored in the mode register.

Systems and methods for modifying a usage limit of a data storage device include a host interface; integrated circuit memory cells; and a processing device coupled to the host interface to provide commands with addresses to access the integrated circuit memory cells according to the address, and configured to execute firmware to perform: operations requested by commands received via the host interface; and updates to a usage limit of the data storage device.