An electronic device includes a masking signal generation circuit configured to generate a test masking signal by receiving a fuse data during a period in which a test masking mode is executed; and a test mode signal generation circuit configured to, when a test command for executing a test in an internal circuit is input, execute the test based on the test masking signal.

Disclosed is a method of operating a storage controller which communicates with a non-volatile memory device. The method includes outputting a first command including a request for on-chip valley search (OVS) count data of a memory region of the non-volatile memory device to the non-volatile memory device, wherein the OVS count data include a first count value of a first read voltage and a second count value of a second read voltage, receiving the OVS count data from the non-volatile memory device, determining a first error count value for the first read voltage and a second error count value for the second read voltage, based on the OVS count data, and determining a subsequent operation, based on the first and second error count values.

According to various embodiments, a semiconductor memory device includes a substrate that includes a memory cell region and a test region. The semiconductor memory device further includes an active pattern on the memory cell region, a source/drain pattern on the active pattern, a dummy pattern on the test region, a first gate electrode on the dummy pattern, a first common contact, and a first wiring layer. The first wiring layer includes a first test line electrically connected to the first common contact. The first common contact includes a first contact pattern in contact with the dummy pattern, and a first gate contact connected to the first gate electrode. The first gate contact includes a body and a protrusion part. A lowermost level of a top surface of the active pattern is lower than a lowermost level of a top surface of the dummy pattern.

The present disclosure relates to a method and apparatus for determining a signal margin (SM) of a memory cell, a storage medium and an electronic device, and relates to the technical field of integrated circuits. The method for determining an SM of a memory cell includes: when the memory cell performs write and read operations, determining a sense signal threshold of the memory cell under an influence of a noise; and determining, based on the sense signal threshold, an actual SM of the memory cell during data reading.

A memory device includes a memory array comprising a plurality of memory elements and a memory controller coupled to the memory array. The memory controller when in operation receives an indication of a defect in the memory array determines a first location of the defect when the defect is affecting only one memory element of the plurality of memory elements, determines a second location of the defect when the defect is affecting two or more memory elements of the plurality of memory elements, and performs a blown operation on a defective memory element at the second location when the defect is affecting two or more memory elements of the plurality of memory elements.

Systems of screening memory cells of a memory include modulating bitline and/or wordline voltage. In a read operation, the wordline may be overdriven or underdriven with respect to a nominal operating voltage on the wordline. In a write operation, one or both of the bitline and wordline may be overdriven or underdriven with respect to corresponding a nominal operating voltage. Such a system has margin control circuity, which may be in the form of bitline and wordline margin controls, to modulate bitline and wordline voltages, respectively, in the memory cells of the memory array.

A semiconductor device that has a normal mode of operation and a test mode of operation and can include: a first circuit that generates at least one assist signal having an assist enable logic level in the normal mode of operation, the at least one assist signal alters a read operation or a write operation to a static random access memory (SRAM) cell of the semiconductor device as compared to read or write operations when the assist signal has an assist disable logic level; and the first circuit generates the at least one assist signal having the assist disable logic level in the test mode of operation

In a method of reprogramming data in a nonvolatile memory device including a plurality of pages each of which includes a plurality of memory cells, first page data programmed in a first page is read from among a plurality of page data programmed in the plurality of pages. The plurality of page data have a threshold voltage distribution including a plurality of states. An error correction code (ECC) decoding is performed on the first page data. A reprogram operation is selectively performed on target bits in which an error occurs among a plurality of bits included in the first page data based on a result of performing the ECC decoding on the first page data and a reprogram voltage. The target bits correspond to a first state among the plurality of states. A voltage level of the reprogram voltage is adaptively changed.

A method includes performing a first read operation involving a set of memory cells using a first voltage, determining a quantity of bits associated with the set of memory cells based on the first read operation, performing a second read operation involving the set of memory cells using a second voltage that is greater than the first voltage when the quantity of bits is above a threshold quantity of bits for the set of memory cells, and performing the second read operation involving the set of memory cells using a third voltage that is less than the first voltage when the quantity of bits is below the threshold quantity of bits for the set of memory cells.

Systems, methods, and apparatus to evaluate read margin when reading memory cells in a memory device. In one approach, a controller of a memory device applies an initial read voltage of an initial polarity to memory cells. Errors from the read are used to determine whether read retry is needed. If so, a pre-read voltage of an opposite polarity is applied, and errors determined. Based on the errors from applying the pre-read voltage, a polarity is selected for the read retry voltage. The read retry voltage of the selected polarity is then applied to the memory cells.