A system which identifies a memory device using a physical unclonable function. The system performs raw read operations on every page of a block; sorts the pages into low and high groups using an average number of ones based on the raw read operations; generates unordered page pairs by sequentially selecting a first page from the low group and a second page from the high group; generates ordered page pairs by selectively converting an order of pages in each pair of the unordered page pairs; and generates a sequence for identifying the selected block based on comparing the average number of ones for pages in each ordered page pair.

A method and solid-state storage device are disclosed for validating erasure status of data blocks on a solid-state drive. The method includes assigning each data block of a plurality of data blocks on the solid-state drive, a block identifier and an erasure status, the block identifier being system data, user data, or unmapped data, and the erasure status being erased or not erased.

A memory device includes a memory array of memory cells and control logic operatively coupled to the memory array. The control logic to perform memory erase operations including: performing a true erase sub-operation by causing multiple pulse steps to be applied sequentially to a group of memory cells of the memory array, wherein each sequential pulse step of the multiple pulse steps occurs during a pulse-step period and at a higher voltage compared to an immediately-preceding pulse-step; in response to detecting an erase suspend command during a pulse step, suspending the true erase sub-operation at a start of a subsequent pulse-step period after the pulse step; and resuming the true erase sub-operation at an end of the subsequent pulse-step period.

A system includes a memory device and a processing device, operatively coupled to the memory device, the processing device to perform operations comprising: measuring one of a temperature voltage shift or a read bit error rate of fixed data stored in the memory device in response to detecting a power on of the memory device, the fixed data having been programmed in response to detecting a power loss; estimating an amount of time for which the memory device was powered off based on results of the measuring; and in response to the amount of time satisfying a threshold criterion, updating a value for a temporal voltage shift of a block family based on the amount of time.

According to one embodiment, a memory device includes a first nonvolatile memory die, a second nonvolatile memory die, a controller, and a first temperature sensor and a second temperature sensor incorporated respectively in the first nonvolatile memory die and the second nonvolatile memory die. The controller reads temperatures measured by the first and second temperature sensors, from the first and second nonvolatile memory dies. When at least one of the temperatures read from the first and second nonvolatile memory dies is equal to or higher than a threshold temperature, the controller reduces a frequency of issue of commands to the first and second nonvolatile memory dies or a seed of access to the first and second nonvolatile memory dies.

A method includes identifying a target plane in respective planes of a memory die in a non-volatile memory array and identifying, from blocks of non-volatile memory cells coupled to a common bit line in the target plane, at least one target block in the target plane. The method further includes performing an operation to disable at least one gate associated with the at least one target block to prevent access to the blocks of non-volatile memory cells coupled to the common bit line in the target plane.

A method includes identifying a target plane in respective planes of a memory die in a non-volatile memory array and identifying, from blocks of non-volatile memory cells coupled to a common bit line in the target plane, at least one target block in the target plane. The method further includes performing an operation to disable at least one gate associated with the at least one target block to prevent access to the blocks of non-volatile memory cells coupled to the common bit line in the target plane.

Embodiments described herein include a sensor control device configured for secure over-the-air (OTA) programming. Embodiments include a sensor control device that includes one or more processors, an analyte sensor, a communication module, and a memory. The memory includes a first set of storage blocks that are in a non-programmable state and a second set of blocks that are in a programmable state. The processors are configured to receive, using the communication module, instructions to write marking data to the memory to mark a first storage block from the first set of storage blocks as inaccessible and to write program data to a second storage block from the second set of storage blocks, causing the second storage block to be placed into the non-programmable state. The program data written to the second storage block includes instructions that cause the processors to process analyte data received from the analyte sensor.

A memory system includes a non-volatile memory having a plurality of memory cells and a controller. The controller is configured to switch a mode for controlling an access operation to the non-volatile memory from a first mode to a second mode, in response to receiving from a host, a first command for instructing the controller to switch the mode from the first mode to the second mode. The access operation controlled according to the second mode improves data retention relative to the access operation controlled according to the first mode.

A memory system includes a non-volatile memory having a plurality of memory cells and a controller. The controller is configured to switch a mode for controlling an access operation to the non-volatile memory from a first mode to a second mode, in response to receiving from a host, a first command for instructing the controller to switch the mode from the first mode to the second mode. The access operation controlled according to the second mode improves data retention relative to the access operation controlled according to the first mode.