A memory device, such as an MRAM memory, includes a memory array with a plurality of bit cells. The memory array is configured to store trimming information and store user data. A sense amplifier is configured to read the trimming information from the memory array, and a trimming register is configured to receive the trimming information from the sense amplifier. The sense amplifier is configured to receive the trimming information from the trimming register so as to operate in a trimmed mode for reading the user data from the memory array.

A memory device, such as an MRAM memory, includes a memory array with a plurality of bit cells. The memory array is configured to store trimming information and store user data. A sense amplifier is configured to read the trimming information from the memory array, and a trimming register is configured to receive the trimming information from the sense amplifier. The sense amplifier is configured to receive the trimming information from the trimming register so as to operate in a trimmed mode for reading the user data from the memory array.

A memory system has a memory, a first substrate on which the memory is mounted and which is set to a temperature of −40[° C.] or lower, a controller configured to control the memory; and a second substrate on which the controller is mounted, which is set to a temperature of −40[° C.] or higher, and which transmits and receives a signal to and from the first substrate via a signal transmission cable.

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 storage system has a memory with a multi-level cell (MLC) block and a partially-bad single-level cell (SLC) block. The storage system repurposes the partially-bad SLC block as a non-volatile read cache for data stored in the MLC block (e.g., cold data that is read relatively frequently) to improve performance of host reads. Because the original version of the data is still stored in the MLC block, the original version of the data can be read if there is an error in the copy of the data stored in the partially-bad SLC block, thus avoiding the need for extensive error-correction handling to account for the poor reliability of the partially-bad SLC block.

A storage system has a memory with a multi-level cell (MLC) block and a partially-bad single-level cell (SLC) block. The storage system repurposes the partially-bad SLC block as a non-volatile read cache for data stored in the MLC block (e.g., cold data that is read relatively frequently) to improve performance of host reads. Because the original version of the data is still stored in the MLC block, the original version of the data can be read if there is an error in the copy of the data stored in the partially-bad SLC block, thus avoiding the need for extensive error-correction handling to account for the poor reliability of the partially-bad SLC block.

A system includes a memory device storing groups of managed units and a processing device operatively coupled to the memory device. The processing device is to, during power on of the memory device, perform including: causing a read operation to be performed at a subset of a group of managed units; determining a bit error rate related to data read from the subset of the group of managed units; and in response to the bit error rate satisfying a threshold criterion, causing a rewrite of the data stored at the group of managed units.

A system includes a memory device storing groups of managed units and a processing device operatively coupled to the memory device. The processing device is to, during power on of the memory device, perform including: causing a read operation to be performed at a subset of a group of managed units; determining a bit error rate related to data read from the subset of the group of managed units; and in response to the bit error rate satisfying a threshold criterion, causing a rewrite of the data stored at the group of managed units.

A method for operating a memory includes determining to perform an error correction operation; determining whether to perform an error correction operation; generating an internal address when the error correction operation is performed; reading data from memory cells that are selected based on the internal address and an error correction code corresponding to the data; performing an error correction operation on the data based on the error correction code to produce an error-corrected data; writing the error-corrected data and an error correction code corresponding to the error-corrected data into the memory cells; determining one or more regions among regions in the memory as a repair-requiring region based on an error detected when the error correction operation is performed; receiving a first command; backing up the data and the error correction code into a redundant region in response to the first command; and repairing the repair-requiring region with the redundant region.

A method for operating a memory includes determining to perform an error correction operation; determining whether to perform an error correction operation; generating an internal address when the error correction operation is performed; reading data from memory cells that are selected based on the internal address and an error correction code corresponding to the data; performing an error correction operation on the data based on the error correction code to produce an error-corrected data; writing the error-corrected data and an error correction code corresponding to the error-corrected data into the memory cells; determining one or more regions among regions in the memory as a repair-requiring region based on an error detected when the error correction operation is performed; receiving a first command; backing up the data and the error correction code into a redundant region in response to the first command; and repairing the repair-requiring region with the redundant region.