Disclosed in some examples are memory devices which include electrically programmable elements that specify values for one or more firmware search parameters for use by the bootloader in locating and reading the firmware object. The values of the firmware search parameters may be dynamically selected at manufacturing time by modifying the configuration of the electrically programmable elements by applying or not applying a specified voltage to the electrically programmable elements. In some examples, an electrically programmable element may include: a fuse, an anti-fuse, and/or an e-fuse.

An apparatus includes one or more control circuits configured to connect to a plurality of non-volatile memory cells through a plurality of word lines. The one or more control circuits are configured to, for each target word line of a plurality of target word lines to be read, select either a first neighboring word line or a second neighboring word line as a selected neighboring word line according to whether non-volatile memory cells of the first neighboring word line are in an erased condition. The one or more control circuits are further configured to determine a read voltage to read non-volatile memory cells of a corresponding target word line according to an amount of charge in non-volatile memory cells of the selected neighboring word line.

Methods, systems, and devices for overwriting at a memory system are described. A memory system may be configured to overwrite portions of a memory array with new data, which may be associated with omitting an erase operation. For example, write operations may be performed in accordance with a first demarcation configuration to store information at a portion of a memory array. A portion of a memory system may then determine to overwrite the portion of the memory array with different or updated information, which may include performing write operations in accordance with a second demarcation configuration. The second demarcation configuration may be associated with different cell characteristics for a one or more logic states, such as different distributions of stored charge or other cell property, different demarcation characteristics, different write operations, among other differences, which may support performing an overwrite operation without first performing an erase operation.

A storage system determines that it is undergoing intensive reads by a host, which can occur, for example, when the storage system is being used to play a video game for a prolonged period of time. As performing a conventional read scrub operation in that situation can result in a decrease in performance, the storage system can instead use a targeted read scrub operation to reduce the impact on host read performance. The targeted read scrub operation can take the form, for example, of a periodic read scan on areas of the memory that are not part of the intensive host read, random read scans on neighboring wordlines where only a single state is read, and/or a passive read scan where acceptable but risky pages are marked for relocation.

Systems, methods and apparatus to determine, in response to a command to write data into a set of memory cells, a programming mode of a set of memory cell to optimize performance in retrieving the data back from the set of memory cells. For example, based on usages of a memory region containing the memory cell set, a predictive model can be used to identify a combination of an amount of redundant information to be stored into the memory cells in the set and a programming mode of the memory cells to store the redundant information. Increasing the amount of redundant information can increase error recovery capability but increase bit error rate and/or increase time to read. The predictive model is trained to predict the combination to optimize read performance.

A second conductor, third conductor, and fourth conductor sandwiches a first layer together with a first semiconductor. The fourth conductor is positioned farther from the first conductor than the third conductor, which is positioned farther from first conductor than the second conductor. A first circuit is configured to apply a first potential to the first and second conductors, apply a second potential lower than the first potential to the third conductor in parallel with the application of the first potential, and apply a third potential higher than the second potential and lower than the first potential to the fourth conductor in parallel with the application of the first potential.

A semiconductor memory device includes a plurality of memory blocks and a contact region. Each of the plurality of memory blocks includes a plurality of memory cells. The contact region is formed between the plurality of memory blocks. The semiconductor memory device uses a first memory block that is not adjacent to the contact region and a second memory block adjacent to the contact region among the plurality of memory blocks differently.

A storage device that includes a nonvolatile memory device is described. The storage device includes areas and a controller. The controller receives a write command and data from an external host device. The controller then preferentially writes the data in an area associated with a turbo write based on a turbo write policy, or in an area not associated with a turbo write based on a normal write policy. The controller also receives a move command from the external host device and moves data stored in the area to a different area based on the move command.

A storage device is provided. The storage device includes a memory device including a memory cell array configured to store metadata and main data and a storage controller configured to access the memory device and control the memory device, wherein the storage controller is configured to read data from the memory device at a speed adaptively varying to a first read speed or a second read speed according to a state of the memory device, the second read speed being faster than the first read speed.

Apparatuses and techniques are described for programming data in memory cells while concurrently storing backup data. One or more initial pages of data are programmed into both a primary block and a first backup block in a first program pass. A power loss then occurs which can corrupt the data or otherwise prevent reading of the one or more initial pages of data from the primary block. The one or more initial pages of data are read from the first backup block and used to perform a second program pass in which one or more additional pages of data are programmed into the primary block. Single bit per cell data can be stored in a second backup block to decode the one or more initial pages of data as read from the first backup block.