The present technology relates to an electronic device. According to the present technology, a memory device having improved verify accuracy may include a memory block including memory cells, a read and write circuit including a plurality of page buffers, a current sensing circuit configured to perform a verify operation of comparing sensing voltages with a reference voltage, and a control logic configured to control the current sensing circuit to perform the verify operation. The control logic controls performing a first verify operation on each of page buffer groups having a same logical group number, and performing a second verify operation on each of page buffer groups having a same physical group number, and the current sensing circuit outputs a verify pass signal in response to both results of the first verify operation and the second verify operation satisfying a pass criterion.

A semiconductor storage device includes a memory cell array, a peripheral circuit configured to perform writing of data to the memory cell array and reading of data from the memory cell array, and a sampling circuit configured to execute a sampling process by which sampling data is collected from a predetermined node of the peripheral circuit, during a period in which the peripheral circuit performs the writing of data to the memory cell array or the reading of data from the memory cell array.

The present technology includes a memory device. The memory device includes memory cells, page buffers configured to store sensed data obtained from the memory cells, a current sensing circuit configured to compare a sensed voltage generated according to the sensed data and a reference voltage generated according to an allowable fail bit code, and output a pass signal or a fail signal according to a comparison result, and a fail bit manager configured to increase an allowable number of fail bits included in the allowable fail bit code until the pass signal is output from the current sensing circuit, change the allowable fail bit code according to the allowable number of fail bits, and provide the allowable fail bit code to the current sensing circuit.

A semiconductor device includes a cell region and a peripheral circuit region. The cell region includes gate electrode layers stacked on a substrate, channel structures extending in a first direction, extending through the gate electrode layers, and connected to the substrate, and bit lines extending in a second direction and connected to the channel structures above the gate electrode layers. The peripheral circuit region includes page buffers connected to the bit lines. Each page buffer includes a first and second elements adjacent to each other in the second direction and sharing a common active region between a first gate structure of the first element and a second gate structure of the second element in the second direction. Boundaries of the common active region include an oblique boundary extending in an oblique direction forming an angle between 0 and 90 degrees with the second direction.

A memory device includes a cell wafer having a first pad on one surface thereof; and a peripheral wafer bonded to the one surface of the cell wafer, and having a second pad coupled to the first pad. The cell wafer includes a memory cell array; first and second bit lines coupled to the memory cell array; and a bit line selection circuit configured to couple one of the first and second bit lines to the first pad. The peripheral wafer includes a page buffer low-voltage circuit including a first page buffer low-voltage unit corresponding to the first bit line and a second page buffer low-voltage unit corresponding to the second bit line; and a page buffer high-voltage circuit configured to couple one of the first and second page buffer low-voltage units to the second pad.

In certain aspects, a memory device includes an array of memory cells and a plurality of peripheral circuits coupled to the array of memory cells. The peripheral circuits include a first peripheral circuit including a recess gate transistor. The peripheral circuits also include a second peripheral circuit including a flat gate transistor.

A semiconductor storage device includes a bit line, a memory cell transistor electrically connected to the bit line, and a sense amplifier that reads data from the memory cell transistor via the bit line. During an operation of determining first data and second data, while continuously applying a first voltage to a gate of the memory cell transistor, the sense amplifier first determines the first data based upon a second voltage, and then determines the second data based upon a third voltage lower than the second voltage.

Methods and apparatus for NAND flash memory are disclosed. In an embodiment, a method is provided for programming a memory device having a plurality of memory chips that comprise multiple-level-cells. The method includes loading first data in a first chip, programming the first data into selected cells of the first chip using a single-level-cell (SLC) programming mode, and reprogramming the first data stored in the selected cells of the first chip to other cells of the first chip using a multiple-level-cell programming mode. The method also includes repeating the operations of loading, programming, and reprogramming for the remaining chips. The loading operations for the remaining chips begin at the completion of the loading operation for the first chip and occur in a non-overlapping sequential manner, and the loading operations for the remaining chips are performed in parallel with the programming and reprogramming operations of the first chip.

A cache read method of a nonvolatile memory device including a plurality of page buffer units and cache latches, each page buffer units having a sensing latch and a sensing node line is provided. The method comprises performing a first on-chip valley search (OVS) read on a selected memory cell using a first sensing node line and a first sensing latch of a first page buffer unit of the plurality of page buffer units; storing first data sensed from the selected memory cell in the first sensing latch, the first data based on a result of the first OVS read; dumping the first data to sensing node lines of at least one page buffer unit, excluding the first page buffer unit, from among the plurality of page buffer units; and performing a second OVS read on the selected memory cell using the first sensing latch.

A semiconductor memory device includes a memory cell array including a plurality of memory cell transistors, a word line connected to a gate of each of the memory cell transistors, a sequencer configured to control an operation of the memory cell array, and an input/output circuit. When the input/output circuit receives a command instructing an operation of continuously reading data of a plurality of pages from the memory cell transistors, the sequencer determines the data of the plurality of pages by continuously applying read voltages corresponding to the plurality of pages to be read, to the word line. In each continuous time period during which the control circuit applies read voltages for determining the data of one of the pages to the word line, the control circuit does not apply any read voltage for determining the data of another one of the pages to the word line.