An integrated circuit includes a plurality of memory cells, a first pair of complementary data lines, and a second pair of complementary data lines. The plurality of memory cells include a first array of memory cells and a second array of memory cells. The first pair of complementary data lines are coupled to the first array of memory cells. The second pair of complementary data lines are different from the first pair of complementary data lines and are coupled to the second array of memory cells. A number of memory cells in the first array of memory cells is different from a number of memory cells in the second array of memory cells.

A semiconductor structure includes a substrate and a plurality of word lines located on a top surface of the substrate. Each of the word lines extends in a direction perpendicular to the top surface of the substrate. The plurality of word lines are arranged at intervals along a first direction. Any two adjacent ones of the word lines are arranged in an at least partially staggered manner along the first direction. The first direction is a direction parallel to the top surface of the substrate.

A semiconductor device includes; a bottom electrode on a substrate, a supporting pattern between the bottom electrode and an adjacent bottom electrode, a top electrode covering the bottom electrode and the supporting pattern, and a dielectric layer between the bottom electrode and the top electrode and between the supporting pattern and the top electrode. The bottom electrode may include a first portion including a seam and a second portion on the first portion, a top end of the second portion may be disposed at a height lower than an upper surface of the supporting pattern, and a portion of a bottom end of the second portion may be exposed to the seam.

A semiconductor device includes; a bottom electrode on a substrate, a supporting pattern between the bottom electrode and an adjacent bottom electrode, a top electrode covering the bottom electrode and the supporting pattern, and a dielectric layer between the bottom electrode and the top electrode and between the supporting pattern and the top electrode. The bottom electrode may include a first portion including a seam and a second portion on the first portion, a top end of the second portion may be disposed at a height lower than an upper surface of the supporting pattern, and a portion of a bottom end of the second portion may be exposed to the seam.

A processing device in a memory sub-system sends a program command to the memory device to cause the memory device to initiate a program operation on a corresponding wordline and sub-block of a memory array of the memory device. The processing device further receives a request to perform a read operation on data stored on the wordline and sub-block of the memory array, sends a suspend command to the memory device to cause the memory device to suspend the program operation, reads data corresponding to the read operation from a page cache of the memory device, and sends a resume command to the memory device to cause the memory device to resume the program operation.

According to one embodiment, a memory system includes a memory controller and a nonvolatile memory with multiple planes each provided with multiple word lines, memory cell groups, dummy word lines, and dummy memory cell groups. The memory controller writes data to a memory cell group connected to a corresponding word line of any of the planes, such that a plane to which k-th data are to be written is different from a plane to which (k+m−1)-th data are to be written, and writes the parities to any of the dummy memory cell groups. The combinations of the data used for generating the different parities are different from each other.

Memory systems with burst mode having logic gates as sense elements and related methods are provided. A memory system comprises a memory array including a first set of memory cells coupled to a first wordline, a second set of memory cells coupled to a second wordline, and a plurality of sense elements, not including any sense amplifiers. The control unit is configured to generate control signals for: in response to a burst mode read request, simultaneously: (1) asserting a first wordline signal on the first wordline coupled to each of a plurality of first set of bitlines, and (2) asserting a second wordline signal on the second wordline coupled to each of a plurality of second set of bitlines, and as part of a burst, outputting data corresponding to a subset of each of the first set of memory cells and the second set of memory cells.

A semiconductor memory device includes a first semiconductor pillar having i first memory cells on a first side and i second memory cells on a second side, a second semiconductor pillar having i third memory cells on a third side and i fourth memory cells on a fourth side, i first word lines (i is an integer of 4 or more) connected to the i first memory cells and the i third memory cells, i second word lines connected to the i second memory cells and the i fourth memory, and a driver. In writing data to the k-th (k is smaller than i and greater than 1) first memory cell, the driver supplies the k-th first word line with a first voltage larger than a reference voltage, and supplies the k-th second word line with a second voltage smaller than the reference voltage.

A memory device includes a plurality of word lines elongated along a first direction, and at least one memory unit. The at least one memory unit includes a plurality of memory cells, at least one bit line, and at least one column word line. The plurality of memory cells are arranged along a second direction different from the first direction. The at least one bit line is elongated along the second direction, and configured to transmit data of a selected memory cell. The at least one column word line is elongated along the second direction, and configured to control electrical connections between the memory cells and the at least one bit line, wherein the selected memory cell is selected by a corresponding word line and the at least one column word line.

A nonvolatile memory device includes a cell array formed on a substrate, and a control gate pickup structure, wherein the cell array comprises floating gates, and a control gate surrounding the floating gates, wherein the control gate pickup structure comprises a floating gate polysilicon layer, a control gate polysilicon layer surrounding the floating gate polysilicon layer and connected to the control gate, and at least one contact plug formed on the control gate polysilicon layer.