According to one embodiment, a non-volatile memory includes a plurality of groups and a memory controller configured to execute a first operation. Each of the plurality of groups includes a plurality of cell units. Each of the plurality of cell units includes a plurality of memory cells. The first operation includes: based on a first correction amount associated with a target group, reading data from the target group; and updating the first correction amount to a second correction amount based on the data. The memory controller is configured to: select a first group as the target group; and when a condition is satisfied, select a second group as the target group after performing the first operation related to the first group.

A semiconductor device including an SRAM capable of sensing a defective memory cell that does not satisfy desired characteristics is provided. The semiconductor device includes a memory cell, a bit line pair being coupled to the memory cell and having a voltage changed towards a power-supply voltage and a ground voltage in accordance with data of the memory cell in a read mode, and a specifying circuit for specifying a bit line out of the bit line pair. In the semiconductor device, a wiring capacitance is coupled to the bit line specified by the specifying circuit and a voltage of the specified bit line is set to a voltage between a power voltage and a ground voltage in a test mode.

A defect detecting method for a Word Line (WL) driving circuit includes: m WLs correspondingly connected to m different WL driving circuits are selected from a memory cell array and corresponding WL driving circuit arrays to serve as m WLs to be tested, one of which is set as a first WL and the remaining m-1 ones are set as second WLs; first potential is written into memory cells correspondingly connected to the m WLs to be tested; second potential is written into memory cells correspondingly connected to the first WL; real-time potentials of the memory cells connected to respective second WLs are sequentially read, and when difference value between the real-time potential of one target memory cell and the first potential is greater than first pre-set value, it is determined that the WL driving circuit connected to the second WL corresponding to the target memory cell has a defect.

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.

A nonvolatile memory device includes a memory cell array, an address decoder, a leakage detector and a control circuit. The memory cell array includes a plurality of mats corresponding to different bit-lines. The leakage detector is commonly coupled to the plurality of mats at a sensing node in the address decoder. The control circuit performs a first leakage detection operation on M mats selected from the mats to determine a leakage of at least a portion of word-lines of the M mats in an N multi-mat mode, in response to the leakage of at least the portion of word-lines of the M mats being detected based on a result of the first leakage detection operation, inhibits at least one mat of the M mats, and performs a second leakage detection operation on at least one target mat from among the M mats except the inhibited mat.

A memory system includes a memory module having a plurality of memory devices therein. A memory controller is configured to transmit commands and addresses to the memory module in synchronization with a clock, input/output data to and from the memory module in synchronization with a data transfer clock, and perform system error correction operations on data read from the memory module. The plurality of memory devices perform on-die error correction operations, which are different from each other according to a physical location of the stored read data.

A memory device includes a fail test circuit configured to generate a fail flag indicating whether a failure was detected in a column line, on the basis of internal data outputted from the column line selected according to a column address, when performing a test, and control the fail flag to indicate that the failure was detected in the column line, on the basis of a fail control signal. The memory device also includes a repair information generation circuit configured to generate, from the column address, a repair column address for repairing the column line, on the basis of the fail flag.

Systems and methods are described including a page buffer to reduce a threshold voltage distribution skew of memory cells and improve programming performance. The page buffer includes a first circuit element connected to a first terminal for supplying a first bitline voltage, a second circuit element connected to a second terminal for supplying a second bitline voltage, and a latch configured to control the first and second circuit elements.

A memory controller includes, in one embodiment, a memory interface and a controller circuit. The memory interface is configured to interface with a memory interface configured to interface with a memory having a plurality of memory blocks. Each memory block has a plurality of strings. The controller circuit is configured to perform a string defect leakage check on one of the memory blocks during a first programming operation of the one memory block, determine whether the one memory block has one or more string to string shorts based on the string defect leakage check, and resolve the string to string shorts in response to determining that the one of the memory blocks has the string to string shorts.