Apparatuses, systems, and methods for refresh address masking. A memory device may refresh word lines as part of refresh operation by cycling through the word lines in a sequence. However, it may be desirable to avoid activating certain word lines (e.g., because they are defective). Refresh masking logic for each bank may include a fuse latch which stores a selected address associated with a word line to avoid. When a refresh address is generated it may be compared to the selected address. If there is a match, a refresh stop signal may be activated, which may prevent refreshing of the word line(s).

Disclosed in some examples are methods, systems, devices, memory devices, and machine-readable mediums for using a non-defective portion of a block of memory on which there is a defect on a different portion. Rather than disable the entire block, the system may disable only a portion of the block (e.g., a first deck of the block) and salvage a different portion of the block (e.g., a second deck of the block).

The present invention relates to a method of operating memory cells, comprising reading a previous user data from the memory cells; writing a new user data and merging the new user data with the previous user data into write registers; generating mask register information, and wherein the mask register information indicates bits of the previous user data stored in the memory cells to be switched or not to be switched in their logic values; counting numbers of a first logic value and a second logic value to be written using the mask register information, respectively; storing the numbers of the first logic value and the second logic value into a first counter and a second counter, respectively; and applying a programming pulse to the memory cells according to the mask register information.

Methods, systems, and devices for adjustable column address scramble using fuses are described. A testing device may detect a first error in a first column plane of a memory array and a second error in a second column plane of the memory array. The testing device may identify a first column address of the first column plane associated with the first error and a second column address of the second column plane based on detecting the first error and the second error. The testing device may determine, for the first column plane, a configuration for scrambling column addresses of the first column plane to different column addresses of the first column plane. In some cases, the testing device may perform a fuse blow of a fuse associated with the first column plane to implement the determined configuration.

According to one embodiment, a memory system manages a plurality of parallel units each including blocks belonging to different nonvolatile memory dies. When receiving from a host a write request designating a third address to identify first data to be written, the memory system selects one block from undefective blocks included in one parallel unit as a write destination block by referring to defect information, determines a write destination location in the selected block, and writes the first data to the write destination location. The memory system notifies the host of a first physical address indicative of both of the selected block and the write destination location, and the third address.

Memory devices are disclosed. A memory device may include a number of column planes, and at least one circuit. The at least one circuit may be configured to receive test result data for a column address for each column plane of the number of column planes of the memory array. The at least one circuit may also be configured to convert the test result data to a first result responsive to only one bit of a number of bits of the number of column planes failing a test for the column address. Further, the at least one circuit may be configured to convert the test result data to a second result responsive to only one column plane failing the test for the column address and more than one bit of the one column plane being defective. Methods of testing a memory device, and electronic systems are also disclosed.

A memory-testing circuit configured to perform a test of reference bits in a memory. In a read operation, outputs of data bit columns are compared with one or more reference bit columns. The memory-testing circuit comprises: a test controller and association adjustment circuitry configurable by the test controller to associate another one or more reference bit columns or one or more data bit columns with the data bit columns in the read operation. The test controller can determine whether the original one or more reference bit columns have a defect based on results from the two different association.

Memory devices are disclosed. A memory device may include a number of column planes, and at least one circuit. The at least one circuit may be configured to receive test result data for a column address for each column plane of the number of column planes of the memory array. The at least one circuit may also be configured to convert the test result data to a first result responsive to only one bit of a number of bits of the number of column planes failing a test for the column address. Further, the at least one circuit may be configured to convert the test result data to a second result responsive to only one column plane failing the test for the column address and more than one bit of the one column plane being defective. Methods of testing a memory device, and electronic systems are also disclosed.

Apparatuses, systems, and methods for refresh address masking. A memory device may refresh word lines as part of refresh operation by cycling through the word lines in a sequence. However, it may be desirable to avoid activating certain word lines (e.g., because they are defective). Refresh masking logic for each bank may include a fuse latch which stores a selected address associated with a word line to avoid. When a refresh address is generated it may be compared to the selected address. If there is a match, a refresh stop signal may be activated, which may prevent refreshing of the word line(s).

Many error correction schemes fail to correct for double-bit errors and a module must be replaced when these double-bit errors occur repeatedly at the same address. This helps prevent data corruption. In an embodiment, the addresses for one of the memory devices exhibiting a single-bit error (but not the other also exhibiting a single bit error) is transformed before the internal memory arrays are accessed. This has the effect of moving one of the error prone memory cells to a different external (to the module) address such that there is only one error prone bit that is accessed by the previously double-bit error prone address. Thus, a double-bit error at the original address is remapped into two correctable single-bit errors that are at different addresses.