Methods, systems, and devices for a dynamic error control configuration for memory systems are described. The memory system may receive a read command and retrieve a set of data from a location of the memory system based on the read command. The memory system may perform a first type of error control operation on the set of data to determine whether the set of data includes one or more errors. If the set of data includes the one or more errors, the memory system may retrieve a second set of data from the location of the memory system and determine whether a syndrome weight satisfies a threshold. The memory system may perform a second type of error control operation on the second set of data based on determining that the syndrome weight satisfies the threshold.

A memory controller for controlling a memory operation of a memory device includes: an error correction code (ECC) circuit configured to detect an error of first read data read from the memory device and correct the error; an error type detection logic configured to write first write data to the memory device, compare second read data with the first write data, detect an error bit of the second read data based on a result of the comparing, and output information about an error type identified by the error bit; and a data patterning logic configured to change a bit pattern of input data to reduce an error of the second read data based on the information about the error type.

Methods, systems, and devices for techniques for managing temporarily retired blocks of a memory system are described. In some examples, aspects of a memory system or memory device may be configured to determine an error for a block of memory cells. For example, a controller may determine an existence of the error and may temporarily retire the block. A media management operation may be performed on the temporarily retired block and, depending on one or more characteristics of the error, the temporarily retired block may be enabled or retired.

Methods, devices, and systems related to storing parity data in dynamic random access memory (DRAM) are described. In an example, a method can include generating, at a controller, parity data based on user data queued for writing to a non-volatile memory device, receiving the parity data at a DRAM device from the controller and writing the parity data to the DRAM device, receiving the user data at a non-volatile memory device from the controller and writing the user data to the non-volatile memory device, reading the user data from the non-volatile memory device via the controller, and receiving the parity data at the controller from the DRAM device.

According to one embodiment, a storage device includes a nonvolatile memory and a controller. The controller is configured to read data from the nonvolatile memory by applying a read voltage to the nonvolatile memory. The controller is configured to correct the read voltage based on a difference between a measured value of a bit number obtained when the data is read from the nonvolatile memory by applying the read voltage to the nonvolatile memory and an expected value of the bit number.

A memory device comprises a memory bank comprising a plurality of addressable memory cells, wherein the memory bank is divided into a plurality of segments. Further, the device comprises a cache memory operable for storing a second plurality of data words, wherein each data word of the second plurality of data words is either awaiting write verification associated with the memory bank or is to be re-written into the memory bank. The cache memory is divided into a plurality of primary segments, wherein each primary segment of the cache memory is direct mapped to a corresponding segment of the plurality of segments, wherein each primary segment is sub-divided into a plurality of secondary segments, and wherein each of the plurality of secondary segments comprises at least one counter for tracking a number of entries stored therein.

A BER corresponding to a group of memory cells programmed via a programing signal having one or more program step characteristics is determined. The determined BER and a target BER is compared. In response to the determined BER being different than the target BER, one or more program step characteristics are adjusted to adjust the determined BER to the target BER.

A method for sorting of a vector in a processor is provided that includes performing, by the processor in response to a vector sort instruction, generating a control input vector for vector permutation logic comprised in the processor based on values in lanes of the vector and a sort order for the vector indicated by the vector sort instruction and storing the control input vector in a storage location.

According to one embodiment, a memory system includes first and second memory cells and a controller. The controller obtains first and second data based on a first read operation from the first and second memory cells, respectively. The controller obtains third and fourth data based on a second read from the first and second memory cells, respectively. The second read operation is different from the first read operation in a read voltage. The controller sets first and second values indicating likelihood of data stored in the first and second memory cells, respectively, based on information indicating locations of the first and second memory cells. The controller performs error correction on data read from the first and second memory cells using at least the third data and the first value, and using at least fourth data and the second value, respectively.

A semiconductor system includes a process control circuit configured to determine whether to perform a patrol training operation, generate a voltage code signal for adjusting a level of a reference voltage which determines a logic level of data in a target memory circuit, and adjust the voltage code signal on the basis of a fail information signal corresponding to the target memory circuit, an operation control circuit configured to receive a command and an address from a host, generate, from the command, a write signal and a read signal for performing a normal operation, and generate, from the address, an internal address for performing the normal operation and an error detection circuit configured to detect an error in the data by receiving the data from the target memory circuit, and generate the fail information signal depending on whether the error has occurred in the data.