Methods of operating a nonvolatile memory device include performing erase loops on a memory block using a first voltage, performing program loops on memory cells of the memory block using a second voltage, and increasing the first and second voltages based on program/erase cycle information for the memory cells. The first voltage may include an erase verification voltage and the second voltage may include a program voltage.

A method for erasing non-volatile memory including applying a first voltage pulse to a non-volatile memory cell to perform a first erase operation of the non-volatile memory cell and determining that a threshold voltage of the non-volatile memory cell is greater than a test voltage. The method further comprising updating a dedicated memory location with a value; and checking the non-volatile memory cell to determine whether the threshold voltage of the non-volatile memory cell is less than an erase-verify voltage to verify that the first erase operation has been performed successfully.

A nonvolatile semiconductor memory device includes a control circuit configured to control a soft program operation of setting nonvolatile memory cells to a first threshold voltage distribution state of the nonvolatile memory cells. When a characteristic of the nonvolatile memory cells is in a first state, the control circuit executes the soft program operation by applying a first voltage for setting the nonvolatile memory cells to the first threshold voltage distribution state to first word lines, and applying a second voltage higher than the first voltage to a second word line. When the characteristic of the nonvolatile memory cells is in a second state, the control circuit executes the soft program operation by applying a third voltage equal to or lower than the first voltage to the first word lines and applying a fourth voltage lower than the second voltage to the second word line.

An erase voltage compensation mechanism for group erase mode with bit line leakage detection comprises performing a block erase operation by applying an erase voltage. Continue block erasing until bit line leakage is detected upon which the erase voltage is latched and over-erase correction is performed. A compensation voltage value is calculated by finding the difference between an upper bound of a threshold voltage distribution and an erase verify point when the bit line leakage was detected. The latched erase voltage is increased by the compensation voltage to create a compensated voltage. A group erase operation is performed and the group address is incremented by 1 and the compensated voltage value is loaded. Then the group erase operation is performed on the next group. The address is incremented, the compensated voltage is loaded, and the group erase operation is performed until the group is the last group.

According to one embodiment, a nonvolatile semiconductor memory device includes a memory cell array and a control unit. The memory cell array includes a plurality of memory cells arranged in a matrix. The control unit erases data of the memory cells. The control unit interrupts the erase operation of the memory cells and holds an erase condition before the interrupt in accordance with a first command during the erase operation, and resumes the erase operation based on the held erase condition in accordance with a second command.

A memory device, including a plurality of planes, includes a mode setting component to set an operation mode of the memory device as a verify pass mode to allow a verify operation, performed in the plurality of planes, to forcibly pass; and a verify signal generator for outputting a verify pass signal signaling that the verify operation has passed for each of the plurality of planes.

A memory apparatus and a control method are provided. The memory apparatus includes a non-volatile memory array having plural memory groups, and the control method is applied to the non-volatile memory array. The memory groups jointly share a first well, and the control method is applied to the non-volatile memory array. A first memory group among the memory groups is erased according to a first erase command after the memory apparatus is power-on, and a first amount of the memory groups are recovered in a first erase-recover procedure after the first memory group is erased. A second memory group among the memory groups is erased according to a second erase command after the first erase-recover procedure, and a second amount of the memory groups are recovered in a second erase-recover procedure after the second memory group is erased. The first amount is greater than the second amount.

Systems and methods for managing content in a flash memory. A data structure such as a Bloom filter is implemented in flash memory such that updates to the data can be performed by overwriting pages in the memory.

A method for erasing non-volatile memory including applying a first voltage pulse to a non-volatile memory cell to perform a first erase operation of the non-volatile memory cell and determining that a threshold voltage of the non-volatile memory cell is greater than a test voltage. The method further comprising updating a dedicated memory location with a value; and checking the non-volatile memory cell to determine whether the threshold voltage of the non-volatile memory cell is less than an erase-verify voltage to verify that the first erase operation has been performed successfully.

A nonvolatile memory device includes a memory cell array including first to fourth planes, a page buffer circuit that includes first to fourth page buffer units connected with the first to fourth planes, respectively, an input/output circuit that includes a first input/output unit connected with the first to fourth page buffer units and a second input/output unit connected with the second and fourth page buffer units, and control logic that controls the input/output circuit to output first data from one of the first to fourth page buffer units through the first input/output unit in a first read mode and output second data from one of the first and third page buffer units through the first input/output unit and third data from one of the second and fourth page buffer units through the second input/output unit in a second read mode.