A non-volatile memory includes a cell array, a current supply circuit, a path selecting circuit and a verification circuit. The cell array includes plural multi-level memory cells in an mxn array. The cell array is connected with m word lines and n lines. Each of the plural multi-level memory cells is in one of X storage states. The current supply circuit provides plural reference currents. The path selecting circuit is connected with the current supply circuit and the n bit lines. The verification circuit is connected with the path selecting circuit, and generates n verification signals. A first path selector of the path selecting circuit is connected with a path selecting circuit and a first bit line. A first verification device of the verification circuit is connected with the first path selector and generates a first verification signal.

A nonvolatile memory device is provided. A nonvolatile memory device comprises a word line, a bit line, a memory cell array including a first memory cell at an intersection region between the word line and the bit line, a word line voltage generating circuitry configured to generate a program voltage, the program voltage to be provided to the word line, a row decoder circuitry configured to receive the program voltage from the word line voltage generating circuitry and configured to provide the program voltage to the word line, a verification circuitry configured to generate a verification signal in response to verifying a success or a failure of programming of the first memory cell, and a control circuitry configured to apply the program voltage to the first memory cell in response to the verification signal, and configured to cut off the program voltage in response to the verification signal.

Provided herein is a memory device and a method of operating the memory device. The memory device may include a plurality of memory cells; a peripheral circuit configured to verify a program operation on the plurality of memory cells using a first verify voltage; and a control logic configured to control the peripheral circuit to suspend the program operation in response to a suspend command and verify the program operation on the plurality of memory cells using a second verify voltage in response to a resume command input after the suspend command. The second verify voltage may have a lower voltage level than the first verify voltage.

A One Time Programmable (OTP) memory, includes: a first driver coupled to a reference cell by a first bit line; a second driver coupled to an OTP cell by a second bit line; and a comparator having a first input coupled to the first bit line and the reference cell, a second input coupled to the second bit line and the OTP cell, and an output coupled to a logic circuit configured to control the first driver and the second driver.

A programming method for a memory device includes simultaneously starting to program a first plane and a second plane; and bypassing the first plane and keeping programming the second plane when the first plane has been programmed successfully and the second plane has not been programmed successfully yet.

According to one embodiment, a semiconductor memory device includes: a first bit line; a first memory cell electrically coupled to the first bit line; and a first sense amplifier configured to sense and store data read out to the first bit line. The first sense amplifier includes a first latch circuit and a second latch circuit. In a program operation, each of the first and second latch circuits stores any one bit of program data. In a first verify operation, data is exchanged between the first latch circuit and the second latch circuit when performing the first verify operation for a first data.

A One Time Programmable (OTP) memory, includes: a first driver coupled to a reference cell by a first bit line; a second driver coupled to an OTP cell by a second bit line; and a comparator having a first input coupled to the first bit line and the reference cell, a second input coupled to the second bit line and the OTP cell, and an output coupled to a logic circuit configured to control the first driver and the second driver.

When programming and verifying a memory device which includes a plurality of memory cells and a plurality of word lines, a first coarse programming is first performed on a first memory cell among the plurality of memory cells which is controlled by a first word line among the plurality of word lines, and then a second coarse programming is performed on a second memory cell among the plurality of memory cells which is controlled by a second word line among the plurality of word lines. Next, a first coarse verify current is used for determining whether the first memory cell passes a coarse verification and a second coarse verify current is used for determining whether the second memory cell passes a second coarse verification, wherein the second coarse verify current is smaller than the first coarse verify current.

A nonvolatile memory device is provided. A nonvolatile memory device comprises a word line, a bit line, a memory cell array including a first memory cell at an intersection region between the word line and the bit line, a word line voltage generating circuitry configured to generate a program voltage, the program voltage to be provided to the word line, a row decoder circuitry configured to receive the program voltage from the word line voltage generating circuitry and configured to provide the program voltage to the word line, a verification circuitry configured to generate a verification signal in response to verifying a success or a failure of programming of the first memory cell, and a control circuitry configured to apply the program voltage to the first memory cell in response to the verification signal, and configured to cut off the program voltage in response to the verification signal.

A memory device and a method of operating the memory device are provided. The memory device includes a memory cell array including memory cells that are programmed into a plurality of program states, a peripheral circuit configured to perform a read operation on the memory cell array, and control logic configured to control the peripheral circuit to perform the read operation and to control the peripheral circuit to perform a masking process on first memory cells having a threshold voltage level higher than a first read level and second memory cells having a threshold voltage level lower than a second read level among the memory cells during the read operation.